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+The Project Gutenberg EBook of Scientific American Supplement, No. 392,
+July 7, 1883, by Various
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+
+Title: Scientific American Supplement, No. 392, July 7, 1883
+
+Author: Various
+
+Posting Date: October 10, 2012 [EBook #8742]
+Release Date: August, 2005
+First Posted: August 7, 2003
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK SCIENTIFIC AMERICAN SUPPL., NO. 392 ***
+
+
+
+
+Produced by Olaf Voss, Don Kretz, Juliet Sutherland, Charles
+Franks and the Distributed Proofreaders Team
+
+
+
+
+
+
+
+
+
+
+[Illustration]
+
+
+
+
+SCIENTIFIC AMERICAN SUPPLEMENT NO. 392
+
+
+
+
+NEW YORK, JULY 7, 1883
+
+Scientific American Supplement. Vol. XVI, No. 392.
+
+Scientific American established 1845
+
+Scientific American Supplement, $5 a year.
+
+Scientific American and Supplement, $7 a year.
+
+
+       *       *       *       *       *
+
+TABLE OF CONTENTS.
+
+I.   ELECTRICITY AND MAGNETISM.--Improved Dynamo Machine.
+     Eight figures.
+
+     An Improved Manganese Battery.--By GEO. LEUCHS.
+
+     The Cause of Evident Magnetism in Iron, Steel, and other Magnetic
+     Metals.--By Prof. D. E. HUGHES. Neutrality.--Superposed
+     Magnetism.--Elastic Nature of the Ether Surrounding the Magnetic
+     Molecules. 3 figures.
+
+II.  ENGINEERING.--The Westinghouse Brake. 2 figures.
+
+     Hydraulic Elevators and Motors.--By B. F. JONES.--Bearing
+     upon the Water Supply of Cities.--Cost of Water used.--Objectionable
+     effects on Water Works.--Best method of arranging water
+     supply.--Cause of Accidents.--Advantages of Water Motors over
+     Steam Engines.--Rates for Water Motors.
+
+     Water Supply of Small Towns.--Process of Softening Hard
+     Water. Six figures.
+
+     Improved Water Meter. Several figures.
+
+III. TECHNOLOGY.--Washing Machine for Wool. 1 figure.
+
+     Increasing the Illuminating Power of Gases, etc.--By V. POPP.--
+     3 figures.
+
+     Preventing Iron from Rusting.
+
+     An Elastic Mass for Confectioners' Use.
+
+     Caoutchouc.
+
+     Photographic Action Studied Spectroscopically.
+
+     Salt and Lime.
+
+     Renewing Paint without Burning.
+
+     A Green or Golden Color for all Kinds of Brass.--By E. PULCHER.
+
+     Vinegar.
+
+     The Preservation of Meat by Carbonic Acid.
+
+     On the Adulteration of Soap.--By Dr. H. BRACKEBUSCH.
+
+IV.  CHEMISTRY.--Testing Olive Oil.--By Dr. O. BACH.
+
+     On the Theory of the Formation of Compound Ethers.
+
+     The Alizarine Industry.
+
+     Reduction of Oxidized Iron by Carbonic Oxide.
+
+V.   MEDICINE AND HYGIENE.--Bovine and Human Milk; the Difference
+     in its Action and Composition.--By C. HUSSON.
+
+     Cereal Foods in their Relation to Health and Disease.--By F. R.
+     CAMPBELL.
+
+     Moist Air in Living Rooms.
+
+     The Developmental Significance of the Human Physiognomy.--
+     By E. D. COPE.--Numerous illustrations.
+
+VI.  NATURAL HISTORY.--The Diamond Fields of South Africa.
+
+     Sponges at the Bahamas.
+
+     Testing Fish Ova for Impregnation.
+
+VII. MISCELLANEOUS.--The Production of Fire. 4 figures.
+
+     St. Blaise.--The winner of the Derby. 1 illustration.
+
+       *       *       *       *       *
+
+
+
+
+IMPROVED DYNAMO MACHINE.
+
+
+The continuous current and the alternating current generators invented
+by Dr. J. Hopkinson and Dr. Alexander Muirhead are peculiarly
+interesting as being probably the first in which the bobbins of the
+armature were wound with copper ribbon and arranged on a disk armature
+much in the same way as was afterward done by Sir William Thomson and by
+Mr. Ferranti. In the Muirhead-Hopkinson machine the armature coils are
+attached to a soft iron ring, whereas in the Ferranti the iron core is
+dispensed with, and a gain of lightness in the armature or rotating part
+effected; this advantage is of considerable importance, though Messrs.
+Hopkinson and Muirhead can of course reduce the weight of this iron core
+to insignificant proportions.
+
+[Illustration: HOPKINSON & MUIRHEAD'S DYNAMO-ELECTRIC GENERATOR.]
+
+The general form of this generator is clearly shown by the side and end
+elevation.
+
+The armature is made by taking a pulley and encircling it with a rim of
+sheet-iron bands, each insulated from the other by asbestos paper. On
+one or both sides of the rim thus formed, radial slots are cut to admit
+radial coils of insulated copper wire or ribbon, so that they lie in
+planes parallel to the plane of the pulley. In the continuous current
+machine coils are placed on both sides of the iron rim and arranged
+alternately, that on the one side always covering the gap between two on
+the other side. In this way, when a coil on one side of the rim is at
+its "dead point" and yields its minimum of current, the corresponding
+coil on the other side is giving out its maximum.
+
+The field magnets are made in a similar manner to the armature and run
+in circles parallel to the rim of the latter. The cores may be built up
+of wrought iron as the rim of the armature is; but it is found cheaper
+to make them of solid wrought or cast iron. To stop the local induced
+currents in the core, however, Messrs. Muirhead and Hopkinson cut
+grooves in the faces of the iron cores, and fill them up with sheet-iron
+strips insulated from each other, similar to the sheet-iron rim of the
+armature.
+
+The coils, both in the armature and electro-magnets, are packed as
+closely as they may to each other, and have thus a compressed or
+quadrilateral shape. The arrangement is shown in Figs. 1 and 2, which
+represent, in side view and plan, the armature pulley with the soft iron
+rim and coils attached. There a is the pulley which is keyed to the
+shaft of the machine, and is encircled with bands of sheet iron, b,
+insulated from each other by ribbons of asbestos paper laid between
+every two bands. When the rim has been built up in this way, radial
+holes are drilled through it from the outer edge inward, and the whole
+rim is bound together by bolts, d, inserted in the holes and secured by
+cottars, e. Radial slots are then cut on each side of the rim all round,
+and the coils of wire mounted on them.
+
+Figs. 3 and 4 show the armature of the continuous current dynamo, with
+the coils on one side of the rim, half way between the coils on the
+other side, so as to give a more continuous current. In the alternating
+current machine the slots on the opposite faces are face to face.
+
+Figs. 5 and 9 illustrate the complete continuous current machine, Fig.
+9 showing the internal arrangement of the field magnets, and Fig. 5 the
+external frame of cast iron supporting them. In these figures a is the
+armature already described, b b are the cores of the electro-magnets
+with a strong cast iron backing, c c; d d are the exciting coils or
+field magnets, so connected that the poles presented to the armature are
+alternately north and south, thus bringing a south pole on one side of
+the armature opposite a north pole on the other side.
+
+The commutator, e, is arranged to prevent sparking when the brushes
+leave a contact piece. This is done by splitting up the brushes into
+several parts and inserting resistances between the part which leaves
+the contact piece last and the rest of the circuit. This resistance
+checks the current ere the final rupture of contact takes place.
+
+Figs. 6 and 7 will explain the structure of the commutator. Here a a a
+are the segments or contact pieces insulated from each other, and b' b
+b are the collecting brushes carried on a spindle, c c'. One of these
+brushes, b', is connected to the spindle, c, through an electrical
+resistance of plumbago, arranged as shown in Fig. 7, where d e are metal
+cylinders, d being in contact with the brush, b', while e is in contact
+with the spindle, c. The space, f, between these two cylinders, d e, is
+filled with a mixture of plumbago and lampblack of suitable resistance,
+confined at the ends by ivory disks. The brush, b', is adjusted by
+bending till it remains in contact with any segment of the commutator
+for a short time after the other brushes have left contact with that
+segment, and thus instead of sudden break of circuit and consequent
+sparking, a resistance is introduced, and contact is not broken until
+the current has been considerably reduced.
+
+The contact segments are supported at both ends by solid insulating
+disks; but they are insulated from each other by the air spaces between
+them, where the brushes rub upon them.
+
+The alternating current dynamo of Drs. Hopkinson and Muirhead differs
+little in general construction from that we have described; except that
+the commutator is very much simplified, and the armature bobbins are
+placed opposite each other on both sides of the rim. Instead of forming
+the coils into complete bobbins, Dr. Muirhead prefers to wind them in a
+zigzag form round the grooved iron rim after the manner shown in Fig. 8,
+which represents a plan and section of the alternating current armature.
+This arrangement is simpler in construction than the bobbin winding, and
+is less liable to generate self-induction current in the armature. Sir
+William Thomson has adopted a similar plan in one of his dynamos. In
+Fig. 8, a is the pulley fixed to the spindle of the machine, b b is
+the iron rim, and c c are the zigzag coils of copper ribbon. The field
+magnets are also wound in a similar manner.
+
+It will be seen from our description that Drs. Hopkinson and Muirhead
+have scarcely had sufficient credit given them for this interesting
+machine, which so closely approximates to the Ferranti. One of their
+alternating dynamos has been built, and was shown at the Aquarium
+Exhibition. It works well, and is capable of supporting 300 Swan lights,
+while in size and appearance it resembles the Ferranti machine in a
+very striking manner. Drs. Muirhead and Hopkinson have also designed
+a magneto-electric alternating current machine; but as it closely
+resembles the machines described, with the exception that permanent
+magnets are employed as field magnets, we need not dwell upon it
+further.--_Engineering_.
+
+       *       *       *       *       *
+
+
+
+
+AN IMPROVED MANGANESE BATTERY.
+
+By GEORGE LEUCHS.
+
+
+The Leclanche battery is distinguished for its simplicity, its small
+internal resistance (0.7 to 1.0 Siemens unit), and that all chemical
+action ceases when the current is broken, that it is not sensitive to
+external influence, and by the self-renewal of the negative electrodes.
+But on the opposite side the action is not very great (= 1.20 or 1.48
+D.), and the zinc as well as the sal ammoniac are converted into
+products that cannot be utilized.
+
+I replace the solution of sal ammoniac by one of caustic potash or
+soda (12 to 15 per cent.), and the thin zinc rods by zincs with larger
+surfaces. In this manner, I obtain a powerful and odorless battery,
+having all the valuable qualities of the Leclanche, and one that
+permits of a renewal of the potash solution as well as of the negative
+electrode.
+
+The electromotive power of this element may be as high as 1.8 D. The
+same pyrolusite (binoxide of manganese) cylinder used with the same thin
+rod of zinc will precipitate 75 per cent. more copper from solution in
+an hour when caustic potash is used than when sal ammoniac is employed.
+But by replacing the thin zinc rod by a zinc cylinder of large surface,
+2� times as much copper is precipitated in the same time.
+
+The more powerful action of such a pair is explained by the stronger
+excitation and more rapid regeneration that the negative electrodes
+undergo from the oxidizing action of the air in the potash solution, as
+well as by the fact that this solution is a better conductor than the
+sal ammoniac solution. The potash solution does not crystallize easily,
+hence the negative electrode remains free from crystals and does not
+require filling up with water. Zinc dissolves only while in contact
+with negative bodies, hence there is no unnecessary consumption of zinc
+either in the open or closed circuit.
+
+When the potash lye has become useless, I regenerate it by removing the
+zinc in the following manner: I pour the solution from the cells, put
+it in a suitable vessel, where I add water to replace that already
+evaporated, and then shake it up well at the ordinary temperature with
+hydrated oxide of zinc (zincic hydrate). Under this treatment the
+greater portion of the zinc that had been chemically dissolved by the
+potash is precipitated in the form of zinc hydrate, along with
+some carbonate. The liquid is now allowed to settle, and the clear
+supernatant solution is poured back again into the battery cells. The
+battery has rather greater electromotive force when this regenerated lye
+is used, because certain foreign matters from the carbon, like sulphur,
+chlorine, sulphuric acid, etc., are removed by this treatment.
+
+The regeneration of the (brown coal) carbon goes on of itself, beneath
+the lye, through the oxidizing action of the atmospheric air; it is
+advantageous to have a part of the carbon sticking out of the liquid. Of
+course the regeneration takes place much more quickly if the electrodes
+are taken out and exposed to the air. In this case the carbon electrode
+need not be very thick, and can be flat or of tubular form. In the
+former case it must have a large volume, and the massive cylindrical
+form is recommended. The zinc electrode must be kept covered deeply with
+potash. The cells must have free access of air, and the potash must be
+replaced as soon as it is exhausted.--_Chem. Zeit_.
+
+       *       *       *       *       *
+
+[Concluded from SUPPLEMENT No. 390, page 6217.]
+
+
+
+
+THE CAUSE OF EVIDENT MAGNETISM IN IRON, STEEL, AND OTHER MAGNETIC
+METALS.
+
+[Footnote: Paper lately read before the Society of Telegraph Engineers
+and Electricians.]
+
+By Professor D. E. HUGHES, F.R.S., Vice-President.
+
+NEUTRALITY.
+
+
+The apparatus needed for researches upon evident external polarity
+requires no very great skill or thought, but simply an apparatus to
+measure correctly the force of the evident repulsion or attraction; in
+the case of neutrality, however, the external polarity disappears, and
+we consequently require special apparatus, together with the utmost care
+and reflection in its use.
+
+From numerous researches previously made by means of the induction
+balance, the results of which I have already published, I felt convinced
+that in investigating the cause of magnetism and neutrality I should
+have in it the aid of the most powerful instrument of research ever
+brought to bear upon the molecular construction of iron, as indeed of
+all metals. It neglects all forces which do not produce a change in the
+molecular structure, and enables us to penetrate at once to the interior
+of a magnet or piece of iron, observing only its peculiar structure
+and the change which takes place during magnetization or apparent
+neutrality.
+
+The induction balance is affected by three distinct arrangements of
+molecular structure in iron and steel, by means of which we have
+apparent external neutrality.
+
+Fig 1 shows several polar directions of the molecules as indicated
+by the arrows. Poisson assumed as a necessity of his theory, that
+a molecule is spherical; but Dr. Joule's experimental proof of the
+elongation of iron by one seven-hundred and-twenty-thousandth of its
+length when magnetized, proves at least that its form is not spherical;
+and, as I am unable at present to demonstrate my own views as to its
+exact form, I have simply indicated its polar direction by arrows--the
+dotted oval lines merely indicating its limits of free elastic rotation.
+
+In Fig. 1, at A, we have neutrality by the mutual attraction of each
+pair of molecules, being the shortest path in which they could satisfy
+their mutual attractions. At B we have the case of superposed magnetism
+of equal external value, rendering the wire or rod apparently neutral,
+although a lower series of molecules are rotated in the opposite
+direction to the upper series, giving to the rod opposite and equal
+polarities. At C we have the molecules arranged in a circular chain
+around the axis of a wire or rod through which an electric current
+has passed. At D we have the evident polarity induced by the earth's
+directive influence when a soft iron rod is held in the magnetic
+meridian. At E we have a longitudinal neutrality produced in the same
+rod when placed magnetic west, the polarity in the latter case being
+transversal.
+
+In all these cases we have a perfectly symmetrical arrangement, and I
+have not yet found a single case in well-annealed soft iron in which I
+could detect a heterogeneous arrangement, as supposed by Ampere, De la
+Rive, Weber, Wiedermann, and Maxwell.
+
+We can only study neutrality with perfectly soft Swedish iron. Hard
+iron and steel retain previous magnetizations, and an apparent external
+neutrality would in most cases be the superposition of one magnetism
+upon another of equal external force in the opposite direction, as shown
+at B, Fig. 1. Perfectly soft iron we can easily free, by vibrations,
+from the slightest trace of previous magnetism, and study the neutrality
+produced under varying conditions.
+
+[Illustration: FIG. 1.]
+
+If we take a flat bar of soft iron, of 30 or more centimeters in
+length, and hold it vertically (giving while thus held a few torsions,
+vibrations, or, better still, a few slight blows with a wooden mallet,
+in order to allow its molecules to rotate with perfect freedom), we find
+its lower end to be of strong north polarity, and its upper end south.
+On reversing the rod and repeating the vibrations, we find that its
+lower end has precisely a similar north polarity. Thus the iron is
+homogeneous, and its polarity symmetrical. If we now magnetize this rod
+to produce a strong south pole at its lower portion, we can gradually
+reverse this polarity, by the influence of earth's magnetism, by
+slightly tapping the upper extremity with a small wooden mallet. If
+we observe this rod by means of a direction needle at all parts, and
+successively during its gradual passage from one polarity to the other,
+there will be no sudden break into a haphazard arrangement, but a
+gradual and perfectly symmetrical rotation from one direction to that of
+the opposite polarity.
+
+If this rod is placed east and west, having first, say, a north polarity
+to the right, we can gradually discharge or rotate the molecules to
+zero, and as gradually reverse the polarity by simply inclining the rod
+so as to be slightly influenced by earth's magnetism; and at no portion
+of this passage from one polarity to neutrality, and to that of the
+opposite name, will there be found a break of continuity of rotation or
+haphazard arrangement. If we rotate this rod slowly, horizontally or
+vertically, taking observations at each few degrees of rotation of an
+entire revolution, we find still the same gradual symmetrical change
+of polarity, and that its symmetry is as complete at neutrality as in
+evident polarity.
+
+In all these cases there is no complete neutrality, the longitudinal
+polarity simply becoming transversal when the rod is east and west.
+F, G, H, I, J, Fig. 1, show this gradual change, H being neutral
+longitudinally, but polarized transversely. If, in place of the rod,
+we take a small square soft iron plate and allow its molecules freedom
+under the sole influence of the earth's magnetism, then we invariably
+find the polarity in the direction of the magnetic dip, no matter in
+what position it be held, and a sphere of soft iron could only be
+polarized in a similar direction Thus we can never obtain complete
+external neutrality while the molecules have freedom and do not form an
+internal closed circle of mutual attractions; and whatever theory we may
+adopt as to the cause of polarity in the molecule, such as Coulomb's,
+Poisson's, Ampere's, or Weber's, there can exist no haphazard
+arrangement in perfectly soft iron, as long as it is free from all
+external causes except the influence of the earth; consequently these
+theories are wrong in one of their most essential parts.
+
+We can, however, produce a closed circle of mutual attraction in iron
+and steel, producing complete neutrality as long as the structure is not
+destroyed by some stronger external directing influence.
+
+Oersted discovered that an external magnetic needle places itself
+perpendicular to an electric current; and we should expect that, if the
+molecules of an iron wire possessed inherent polarity and could rotate,
+a similar effect would take place in the interior of the wire to that
+observed by Oersted. Wiedermann first remarked this effect, and it has
+been known as circular magnetism. This circle, however, consists really
+in each molecule having placed itself perpendicular to the current,
+simply obeying Oersted's law, and thus forming a complete circle in
+which the mutual attractions of the molecules forming that circle are
+satisfied, as shown as C, Fig. 1. This wire becomes completely neutral,
+any previous symmetrical arrangement of polarity rotating to form its
+complete circle of attractions; and we can thus form in hard iron and
+steel a neutrality extremely difficult to break up or destroy. We have
+evident proof that this neutrality consists of a closed chain, or
+circle, as by torsion we can partially deflect them on either side; thus
+from a perfect externally neutral wire, producing either polarity, by
+simple mechanical angular displacement of the molecules, as by right or
+left handed torsion.
+
+If we magnetize a wire placed east and west, it will retain this
+polarity until freed by vibrations, as already remarked. If we pass an
+electric current through this magnetized wire, we can notice the gradual
+rotation of the molecules, and the formation of the circular neutrality.
+If we commence with a weak current, gradually increasing its strength,
+we can rotate them as slowly as may be desired. There is no sudden break
+or haphazard moment of neutrality: the movements to perfect zero are
+accomplished with perfect symmetry throughout.
+
+We can produce a more perfect and shorter circle of attractions by the
+superposition of magnetism, as at B, Fig. 1. If we magnetize a piece
+of steel or iron in a given direction with a strong magnetic directing
+power, the magnetism penetrates to a certain depth. If we slightly
+diminish the magnetizing power, and magnetize the rod in a contrary
+direction, we may reduce it to zero, by the superposition of an exterior
+magnetism upon one of a contrary name existing at a greater depth; and
+if we continue this operation, gradually diminishing the force at each
+reversal, we can easily superpose ten or more distinct symmetrical
+arrangements, and, as their mutual attractions are satisfied in a
+shorter circle than in that produced by electricity, it is extremely
+difficult to destroy this formation when once produced.
+
+The induction balance affords also some reasons for believing that the
+molecules not only form a closed circle of attractions, as at B, but
+that they can mutually react upon each other, so as to close a circle
+of attractions as a double molecule, as shown at A. The experimental
+evidence, however, is not sufficient to dwell on this point, as the
+neutrality obtained by superposition is somewhat similar in its external
+effects.
+
+We can produce a perfectly symmetrical closed circle of attractions of
+the nature of the neutrality of C, Fig. 3, by forming a steel wire into
+a closed circle, 10 centimeters in diameter, if this wire is well joined
+at its extremities by twisting and soldering. We can then magnetize this
+ring by slowly revolving it at the extremity of one pole of a strong
+permanent magnet; and, to avoid consequent poles at the part last
+touching the magnet, we should have a graduating wedge of wood, so that
+while revolving it may be gradually removed to greater distance. This
+wire will then contain no consequent points or external magnetism: it
+will be found perfectly neutral in all parts of its closed circle. Its
+neutrality is similar to C, Fig. 3; for if we cut this wire at any point
+we find extremely strong magnetic polarity, being magnetized by this
+method to saturation, and having retained (which it will indefinitely)
+its circle of attractions complete.
+
+I have already shown that soft iron, when its molecules are allowed
+perfect freedom by vibration, invariably takes the polarity of the
+external directing influence, such as that of the earth, and it does so
+even with greater freedom under the influence of heat. Manufacturers of
+electro-magnets for telegraphic instruments are very careful to choose
+the softest iron and thoroughly anneal it; but very few recognize the
+importance as regards the position of the iron while annealing it under
+the earth's directing influence. The fact, however, has long since been
+observed.
+
+Dr. Hooke, 1684, remarked that steel or iron was magnetized when heated
+to redness and placed in the magnetic meridian. I have slightly varied
+this experiment by heating to redness three similar steel bars, two
+of which had been previously magnetized to saturation, and placed
+separately with contrary polarity as regards each other, the third being
+neutral. Upon cooling, these three bars were found to have identical and
+similar polarity. Thus the molecules of this most rigid material, cast
+steel, had become free at red heat, and rotated under the earth's
+magnetic influence, giving exactly the same force on each; consequently
+the previous magnetization of two of these bars had neither augmented
+nor weakened the inherent polarity of their molecules. Soft iron gave
+under these conditions by far the greatest force, its inherent polarity
+being greater than that of steel.
+
+I have made numerous other experiments bearing upon the question of
+neutrality, but they all confirm those I have cited, which I consider
+afford ample evidence of the symmetrical arrangement of neutrality.
+
+
+SUPERPOSED MAGNETISM.
+
+Knowing that by torsion we can rotate or diminish magnetism, I was
+anxious to obtain by its means a complete rotation from north polarity
+to neutrality, and from neutrality to south polarity, or to completely
+reverse magnetic polarity by a slight right or left torsion.
+
+I have succeeded in doing this, and in obtaining strong reversal of
+polarities, by superposing one polarity given while the rod is under a
+right elastic torsion, with another of the opposite polarity given under
+a left elastic torsion, the neutral point then being reached when the
+rod is free from torsion. The rod should be very strongly magnetized
+under its first or right-hand torsion, so that its interior molecules
+are rotated, or, in other words, magnetized to saturation; the second
+magnetization in the contrary sense and torsion should be feebler, so
+as only to magnetize the surface, or not more than one-half its depth;
+these can be easily adjusted to each other so as to form a complete
+polar balance of force, producing, when the rod is free from torsion,
+the neutrality as shown at B, Fig. 1.
+
+The apparatus needed is simply a good compound horseshoe permanent
+magnet, 15 centimeters long, having six or more plates, giving it a
+total thickness of at least 3 centimeters. We need a sufficiently
+powerful magnet, as I find that I obtain a more equal distribution of
+magnetism upon a rod or strip of iron by drawing it lengthwise over a
+single pole in a direction from that pole, as shown in Fig. 2; we can
+then obtain saturation by repeated drawings, keeping the same molecular
+symmetry in each experiment.
+
+In order to apply a slight elastic torsion when magnetizing rods or
+wires, I have found it convenient to attach two brass clamp keys to the
+extremities of the rods, or simply turn the ends at right angles, as
+shown in the following diagram, by which means we can apply an elastic
+twist or torsion while drawing the rod over the pole of the permanent
+magnet. We can thus superpose several and opposite symmetrical
+structures, producing a polar north or south as desired, greatly in
+excess of that possible under a single or even double magnetization, and
+by carefully adjusting the proportion of opposing magnetisms, so that
+both polarities have the same external force, the rod will be at perfect
+external neutrality when free from torsion.
+
+[Illustration: FIG. 2.]
+
+If we now hold one end of this rod at a few centimeters distance from
+a magnetic directive needle, we find it perfectly neutral when free
+of torsion, but the slightest torsion right or left at once produces
+violent repulsion or attraction, according to the direction of the
+torsion given to the rod, the iron rod or strips of hoop-iron which
+I use for this experiment being able, when at the distance of five
+centimeters from the needle, to turn it instantly 90� on either side of
+its zero.
+
+The external neutrality that we can now produce at will is absolute, as
+it crosses the line of two contrary polarities, being similar to the
+zero of my electric sonometer, whose zero is obtained by the crossing of
+two opposing electric forces.
+
+This rod of iron retains its peculiar powers of reversal in a remarkable
+degree, a condition quite different to that of ordinary magnetization,
+for the same rod, when magnetized to saturation under a single ordinary
+magnetism, loses its evident magnetism by a few elastic torsions, as I
+have already shown; but when it is magnetized under the double torsion
+with its superposed magnetism, it is but slightly reduced by variations
+or numerous torsions, and I have found it impossible to render this
+rod again free from its double polar effects, except by strongly
+remagnetizing it to saturation with a single polarity. The superposed
+magnetism then becomes a single directive force, and we can then by a
+few vibrations or torsions reduce the rod to its ordinary condition.
+
+The effects of superposed magnetism and its double polarity I have
+produced in a variety of ways, such as by the electro-magnetic influence
+of coils, or in very soft iron simply by the directive influence of
+the earth's magnetism, reversing the rod and torsions when held in
+the magnetic meridian, these rods when placed magnetic west showing
+distinctly the double polar effects.
+
+It is remarkable, also, that we are enabled to superpose and obtain
+the maximum effects on thin strips of iron from � to � millimeter in
+thickness, while in thicker rods we have far less effect, being masked
+by the comparatively neutral state of the interior, the exterior
+molecules then reaching upon those of the interior, allowing them to
+complete in the interior their circle of attractions.
+
+I was anxious to obtain wires which would preserve this structure
+against the destructive influence of torsion and vibrations, so that I
+could constantly employ the same wires without the comparatively long
+and tedious process of preparation. Soft iron soon loses the structure,
+or becomes enfeebled, under the constant to and fro torsions requisite
+where we desire a constant change of polarity, as described later in the
+magnetic bells. Hard steel preserves its structure, but its molecular
+rigidity is so great that we obtain but mere traces of any change of
+polarity by torsion. I have found, however, that fine cast drill steel,
+untempered, of the kind employed by watchmakers, is most suitable;
+these are generally sold in straight lengths of 30 centimeters. Wires
+1 millimeter in diameter should be used, and when it is desired to
+increase the force, several of these wires, say, nine or ten, should be
+formed into a single rod or bunch.
+
+The wire as sold is too rigid to give its maximum of molecular rotation
+effect. We must therefore give it two entire turns or twists to the
+right, and strongly magnetize it on the north pole of the magnet while
+under torsion. We must again repeat this operation in the contrary
+direction, after restoring the wire to its previous position, giving now
+two entire turns to the left and magnetizing it on the south pole. On
+restoring the wire to its original place, it will be extremely flexible,
+and we may now superpose several contrary polarities under contrary
+torsions, as already described.
+
+The power of these wires, if properly prepared, is most remarkable,
+being able to reverse their polarity under torsion, as if they were
+completely saturated; and they preserve this power indefinitely if not
+touched by a magnet. It would be extremely difficult to explain the
+action of the rotative effects obtained in these wires under any other
+theory than that which I have advanced; and the absolute external
+neutrality that we obtain in them when the polarities are changing, we
+know, from their structure, to be perfectly symmetrical.
+
+I was anxious to show, upon the reading of this paper, some mechanical
+movement produced by molecular rotation, consequently I have arranged
+two bells that are struck alternately by a polarized armature put in
+motion by the double polarized rod I have already described, but whose
+position, at three centimeters distant from the axis of the armature,
+remains invariably the same. The magnetic armature consists of a
+horizontal light steel bar suspended by its central axle; the bells are
+thin wine glasses, giving a clear musical tone loud enough, by the force
+with which they are struck, to be clearly heard at some distance. The
+armature does not strike these alternately by a pendulous movement, as
+we may easily strike only one continuously, the friction and inertia of
+the armature causing its movements to be perfectly dead beat when not
+driven by some external force, and it is kept in its zero position by a
+strong directive magnet placed beneath its axle.
+
+The mechanical power obtained is extremely evident, and is sufficient to
+put the sluggish armature in rapid motion, striking the bells six times
+per second, and with a power sufficient to produce tones loud enough to
+be clearly heard in all parts of the hall of the Society. As this is
+the first direct transformation of molecular motion into mechanical
+movement, I am happy to show it on this occasion.
+
+There is nothing remarkable in the bells themselves, as they evidently
+could be rung if the armature was surrounded by a coil, and worked by an
+electric current from a few cells. The marvel, however, is in the small
+steel superposed magnetic wire producing by slight elastic torsions from
+a single wire, one millimeter in diameter, sufficient force from mere
+molecular rotation to entirely replace the coil and electric current.
+
+
+ELASTIC NATURE OF THE ETHER SURROUNDING THE MAGNETIC MOLECULES.
+
+During these researches I have remarked a peculiar property of
+magnetism, viz., that not only can the molecules be rotated through any
+degree of arc to its maximum, or saturation, but that, while it requires
+a comparatively strong force to overcome its rigidity or resistance to
+rotation, it has a small field of its own through which it can move with
+excessive freedom, trembling, vibrating, or rotating through a small
+degree with infinitely less force than would be required to rotate it
+permanently on either side. This property is so marked and general that
+we can observe it without any special iron or apparatus.
+
+Let us take a flat rod of ordinary hoop iron, 30 or more centimeters
+in length. If, while holding this vertically, we give freedom to its
+molecules by torsions, vibrations, or, better still, by a few blows with
+a wooden mallet upon its upper extremity, we find, as is well known,
+that its lower portion is strongly north, and its upper south. If we
+reverse this rod, we now find it neutral at both extremities. We might
+here suppose that the earth's directing force had rotated the molecules
+to zero, or transversely, which in reality it has done, but only to the
+limit of their comparatively free motion; for if we reverse the rod to
+its original position, its previous strong polarity reappears at both
+extremities, thus the central point of its free motion is inclined to
+the rod, giving by its free motion great symmetrical inclination and
+polarity in one direction, but when reversed the inclination is reduced
+to zero.
+
+In Fig. 3, D shows the bar of iron when strongly polarized by earth's
+magnetic influence, under vibrations, with a sufficient force to have
+rotated its elastic center of action. C shows the same bar with its
+molecules at zero, or transversal, the directing force of earth being
+insufficient without the aid of mechanical vibration to allow them to
+change. The dotted lines of D suppose the molecule to be in the center
+of its free motion, while at C the molecules have rotated to zero, as
+they are prevented from further rotation by being at the extreme end of
+its free motion.
+
+If, now, we hold the rod vertically, as at C, giving neutrality, and
+give a few slight blows with a wooden mallet to its upper extremity, we
+can give just the amount of freedom required for it to produce evident
+polarity, and we then have equal polarity, no matter which end of the
+bar is below, the center of its free rotation here being perfect, and
+the rod perfectly neutral longitudinally when held east and west. If, on
+the other hand, we have given too much freedom by repeated blows of the
+mallet, its center of free motion becomes inclined with the molecules,
+and we arrive at its first condition, except that it is now neutral at
+D and polarized at C. From this it will be seen that we can adjust
+this center of action, by vibrations or blows, to any point within the
+external directing influence.
+
+[Illustration: FIG. 3.]
+
+We can perceive this effect of free rotation in a limited space in all
+classes of iron and steel, being far greater in soft Swedish iron than
+in hard iron or steel. A similar phenomenon takes place if we magnetize
+a rod held vertically in the direction of earth's magnetism. It
+then gives greater polarity than if magnetized east or west, and if
+magnetized in a contrary sense to earth's magnetism, it is very feebly
+magnetized, or, if the rod is perfectly soft, it becomes neutral after
+strong magnetization. This property of comparative freedom, and the
+rotation of its center of action, can be demonstrated in a variety of
+ways. One remarkable example of it consists in the telephone. All those
+who are thoroughly acquainted with electro-magnetism, and know that
+it requires measurable time to charge an electro-magnet to saturation
+(about one-fifteenth of a second for those employed in telegraphy),
+were surprised that the telephone could follow the slightest change of
+timbre, requiring almost innumerable changes of force per second. I
+believe the free rotation I have spoken of through a limited range
+explains its remarkable sensitiveness and rapidity of action, and,
+according to this view, it would also explain why loud sounding
+telephones can never repeat all the delicacy of timbre that is easily
+done with those only requiring a force comprised in the critical limits
+of its free rotation. This property, I have found, has a distinct
+critical value for each class of iron, and I propose soon to publish
+researches upon the molecular construction of steel and iron, in which
+I have made use of this very property as a guide to the quality of the
+iron itself.
+
+The elastic rotation (in a limited space) of a molecule differs entirely
+from that known as mechanical elasticity. In perfectly soft iron we have
+feeble _mechanical_ elasticity, while in tempered steel we have
+that elasticity at its maximum. The contrary takes place as regards
+_molecular_ elasticity. In tempered steel the molecules are extremely
+rigid, and in soft iron its molecular elasticity is at its maximum. Its
+free motion differs entirely from that given it by torsion or stress. We
+may assume that a molecule is surrounded by continuous ether, more of
+the nature of a jelly than of that of a gas; in such a medium a molecule
+might freely vibrate through small arcs, but a rotation extending beyond
+its critical limit would involve a much greater expenditure of force.
+
+The discovery of this comparatively free rotation of molecules, by means
+of which, as I have shown, we can (without in any degree disturbing the
+external mechanical elasticity of the mass) change the axes of their
+free motion in any direction desired, has led me into a series of
+researches which have only indirectly any relation with the theory of
+magnetism. I was extremely desirous, however, of finding an experimental
+evidence which in itself should demonstrate all portions of the theory,
+and the following experiment, I believe, answers this purpose.
+
+Let us take a square soft iron rod, five millimeters in diameter by
+thirty or more centimeters in length, and force the molecules, by aid
+of blows from a wooden mallet, as previously described, to have their
+centers of free motion in one direction; the rod will (as already shown)
+have polarity at both ends, when held vertically; but if reversed, both
+ends become completely neutral.
+
+If now we turn the rod to its first position, in which it shows strong
+polarity, and magnetize it while held vertically, by drawing the north
+pole of a sufficiently powerful permanent magnet from its upper to its
+lower extremity, we find that this rod, instead of having south polarity
+at its lower portion, as we should expect from the direction of the
+magnetization, is completely neutral at both extremities, but if we
+reverse the rod its fullest free powers of magnetization now appear in
+the position where it was previously neutral. Thus, by magnetization, we
+have completely rotated its free path of action, and find that we can
+rotate this path as desired in any direction by the application of a
+sufficient directing power.
+
+If we take a rod as described, with its polarities evident when held
+vertically, and its neutrality also evident when its ends are reversed
+in the same magnetic field, we find that its polarity is equal at both
+ends, and that it is in every way symmetrical with a perfect magnet. If
+we _gradually_ reverse the ends and take observations of its condition
+through each degree of arc passed over, we find an equal symmetrical
+diminution of evident external polarity, until we arrive at neutrality,
+when it has no external trace of inherent polarity; but its inherent
+polarity at once becomes evident by a simple return to its former
+position. Thus the rod has passed through all the changes from polarity
+to neutrality, and from neutrality to polarity, and these changes have
+taken place with complete symmetry.
+
+The limits of this paper do not allow me to speak of the numerous
+theoretical evidences as shown by the use of my induction balance. I
+believe, however, that I have cited already experimental evidences to
+show that what has been attributed to coercive force is really due to
+molecular freedom or rigidity; that in inherent molecular polarity we
+have a fact admitted by Coulomb, Poisson, Ampere, De la Rive, Weber,
+Du Moncel, Wiedermann, and Maxwell; and that we have also experimental
+evidence of molecular rotation and of the symmetrical character of
+polarity and neutrality.
+
+The experiments which I have brought forward in this paper, in addition
+to those mentioned in my paper read before the Royal Society, will,
+I hope, justify me in having advanced a theory of magnetism which I
+believe in every portion allows at least experimental evidences of its
+probable truth.
+
+       *       *       *       *       *
+
+
+
+
+THE WESTINGHOUSE BRAKE.
+
+
+Below we illustrate the main parts of the Westinghouse brake as applied
+to a vehicle. The supplementary reservoir brake cylinder and triple
+valve are shown in position, and as fitted upon the engine, tender, and
+each vehicle of the train. Air compressed by a pump on the locomotive
+to, say, 70 lb. or 80 lb. to the square inch fills the main reservoir on
+the engine, and flowing through the driver's brake valve and main pipe,
+also charges the supplementary reservoirs throughout the train. When
+a train is running, uniform air pressure exists throughout its
+length--that is to say, the main reservoir on the engine, the pipe from
+end to end of train, the triple valves and supplementary reservoirs on
+each vehicle, are all charged ready for work, the brake cylinders being
+empty and the brakes off. The essential principle of the system is,
+that maintaining the pressure keeps the brakes off, but letting the air
+escape from the brake pipe, purposely or accidentally, instantly applies
+them. It follows, therefore, that the brake may be applied by the driver
+or any of the guards, or if necessary by a passenger, by the separation
+of a coupling, or the failure or injury to a vital part of the
+apparatus, whether due to an accident to the train or to the brake; and
+as the brake on each vehicle is complete in itself and independent,
+should the apparatus on any one carriage be torn off, the brake will
+nevertheless remain applied for almost any length of time upon the rest
+of the train.
+
+The triple valve, as will be seen, is simply a small piston, carrying
+with it a slide valve, which can be moved up or down by increasing or
+decreasing the pressure in the brake pipe. As soon as the air from the
+main reservoir is turned into the brake pipe, by means of the driver's
+valve, the piston is pushed up into the position shown, and air is
+allowed to feed past it through a small groove into the reservoir. At
+the same time the slide valve covers the port to the brake cylinder, and
+is in such a position that the air from the latter may exhaust into the
+atmosphere. The piston has now the same air pressure on both sides; but
+if the pressure in the brake pipe is decreased, the piston and slide
+valve are forced down, thereby uncovering the passage through which air
+from the reservoir flows into the brake cylinder between the pistons,
+thus applying the brakes. The brake pipe is shut off as soon as the
+triple valve piston passes the groove. To release the brakes, the piston
+and slide valves are again moved into the position shown, by the driver
+turning air from the main reservoir into the brake pipe. The air in the
+brake cylinder escapes, and at the same time the reservoir is recharged.
+
+[Illustration: THE WESTINGHOUSE BRAKE.]
+
+Fig. 2 represents two Westinghouse couplings connected. They are exactly
+alike in all respects, and an air tight joint is made between them by
+means of the rubber washers. These couplings are so constructed that the
+air pressure within serves to tighten the joint, and they may be pushed
+apart by the separation of the train without any injury. Such an
+occurrence as already explained leads to the instant application of all
+the brakes on the train.
+
+By closing the small tap shown between the brake pipe and the triple
+valve, the brake on any vehicle, if out of order, can be cut out of the
+system. A release valve is also placed upon each cylinder as shown, so
+that in the event of the brakes being applied by the separation of
+the train, or the breaking of a pipe, or when the locomotive is not
+attached, they can be released by allowing the air to escape from each
+brake cylinder direct. The Westinghouse brake has been made to comply
+thoroughly with the Board of Trade conditions. Many people, however, do
+not appear to understand all that is involved in the second requirement,
+which runs as follows: In case of accident, to be instantaneously
+self-acting. This clearly implies: First, that accident to the train,
+or to any of its vehicles, shall cause the instant application of
+the brakes to the wheels of every vehicle in the train without the
+intervention of the driver or guards. Secondly, that any injury, however
+caused, which may impair the efficiency of the brake apparatus, shall,
+in like manner, lead to the instant application of all the brakes on
+the train. It then becomes impossible for a driver to run his train in
+ignorance of any defect in his brake apparatus because such defect at
+once discloses itself by applying the brakes and stopping the train.
+Thirdly, that each vehicle shall carry its own brake power in such a
+manner that the destruction of the brake apparatus on one or more of the
+carriages shall not affect the efficiency of the brakes upon any of the
+others. No continuous brake which does not comply with such conditions
+can ever be satisfactory.--_The Engineer_.
+
+       *       *       *       *       *
+
+
+
+
+HYDRAULIC ELEVATORS AND MOTORS.
+
+[Footnote: Read at Buffalo meeting of the American Water-Works
+Association May 15,1883.]
+
+By B. F. JONES, Kansas City.
+
+
+What I have to say in relation to elevators and motors will be mostly in
+regard to questions that their uses necessarily bring up for settlement
+at the water-works office; also to show how I have been able in a
+measure to overcome some of the many difficulties that have presented
+themselves, as well as to discuss and seek information as to the best
+way of meeting others that still have to be dealt with. At the outset,
+therefore, let me state that I am not an hydraulic engineer, nor have
+I sufficient mechanical knowledge to undertake the discussion of the
+construction or relative merits of either elevators or motors. This I
+would respectfully suggest as a very proper and interesting topic for a
+paper at some future meeting by some one of the many, eminent engineers
+of this association.
+
+The water-works of Kansas City is comparatively young, and my experience
+only dates back six or seven years, or shortly after its completion.
+At this time it was deemed advisable on account of the probable large
+revenue to be derived from their use, to encourage the putting in of
+hydraulic elevators by low water rates. With this end in view a number
+of contracts were made for their supply at low special rates for a
+period of years, and our minimum meter rate was charged in all other
+cases, regardless of the quantity of water consumed. In most instances
+these special rates have since been found much too low, parties paying
+in this way being exceedingly extravagant in the use of elevators.
+However, the object sought was obtained, and now they are very
+extensively used. In fact, so much has their use increased, that the
+question is no longer how to encourage their more general adoption, but
+how to properly govern those that must be supplied. A present our works
+furnish power to about 15 passenger and 80 freight elevators, and the
+number is rapidly increasing.
+
+Before going into details it seems proper to give at least a brief
+description of our water-works, as my observations are to a great extent
+local.
+
+On account of the peculiar topography of Kansas City (and I believe it
+has more topography to the square foot than any city in the country)
+two systems of water supply have been provided, the high ground being
+supplied by direct pumping, and a pressure of about 90 pounds maintained
+in the business portion, and the lower part of the city being supplied
+by gravity, from a reservoir at an elevation of 210 feet, thus giving
+the business portions of the city, on high and low ground, about the
+same pressure. By an arrangement of valves, a combination of these
+two systems is effected, so that the Holly machinery can furnish an
+increased fire pressure at a moment's notice, into either or both pipe
+systems. Thus at some points the pressure is extremely high during the
+progress of fires, causing difficulties that do not exist where the
+gravity system of works is used exclusively.
+
+Elevators have become an established institution, and in cities of any
+commercial importance are regarded as a necessity, hotels, jobbing
+houses, factories, and office buildings being considered as far behind
+the times when not thus provided, as a city without a water supply or a
+community without a "boom." The use of elevators has made it practicable
+and profitable to erect buildings twice as high as were formerly thought
+of. Perhaps some of the most notable examples of this are in New York
+city, where such structures as the Mills building, the buildings of the
+_Tribune, Evening Post_, and Western Union Telegraph Co.. tower high
+above the surrounding blocks, monuments of architecture, that without
+this modern invention would reflect little credit upon their designers.
+It is now found less labor to go to to the fifth, sixth, or even tenth
+floors of these great buildings than it was to reach the second or
+third, before their use. In these days, merchants can shoot a ton of
+goods to the top of their stores in less time than it would take to get
+breath for the old hoist or "Yo, heave O" arrangement. Thousands of
+dollars are sometimes expended on a single elevator, the cars are
+miniature parlors, and the mechanism has perhaps advanced to nearly the
+perfection of the modern steam engine. If then they have become such a
+firmly established institution, their bearing upon the water supply of
+cities is a subject to be carefully considered.
+
+As before intimated, there are many questions involved in the use of
+hydraulic elevators, that particularly concern towns supplied by direct
+pumping, and perhaps other places where the supply by gravity is
+somewhat limited. In a few larger cities supplied by ample reservoirs
+and mains, some of the difficulties suggested are not serious. Very
+little power is necessary to perform the actual work of lifting, with
+either steam or hydraulic elevators, but on account of the peculiar
+application of the power, and the great amount of friction to be
+overcome, a very considerable power has to be provided. It has been
+estimated, by good authorities, that not more than one-quarter of the
+power expended in most cases is really utilized.
+
+With all hydraulic elevators of which I have cognizance, as much water
+is required to raise the empty cars as though they were loaded to
+maximum capacity. Still, to be available for passenger purposes
+elevators must have capacity of upward of 2,500 pounds, particularly in
+hotels, where the cars are often arranged with separate compartments
+underneath for baggage. In general use it is exceptional that passenger
+elevators are fully loaded; on the contrary less than half a load is
+ordinarily carried, and for this reason it would appear that no actual
+benefit is derived from at least one-half of the water consumed. In this
+connection it has occurred to me that passenger elevators could be built
+at no great additional cost, with two cylinders, small and large, the
+two piston rods of which could be connected so as to both operate the
+same cable, either or both furnishing power, the smaller cylinder to be
+used for light loads, the larger for heavy work, and the two together
+for full capacity, this independent valve arrangement to be controlled
+by a separate cable running through the car. Whether this plan is
+practicable or not must be left to elevator manufacturers, but it seems
+to me that with the Hale-Otis elevator for instance (which is conceded
+to be one of the best) it could easily be accomplished. Certainly some
+such arrangement would effect a great saving of water, and perhaps bring
+water bills to a point that this class of consumers could afford to pay.
+
+Hydraulic elevators where the water is used over and over again, by
+being pumped from the discharge to elevated tanks, cut little or no
+figure in connection with a city's water supply. When fuel, first cost,
+attendance of an engineer, and the poor economy of the class of pumps
+usually employed to perform this work are considered, the cost of
+operating such elevators is greatly in excess of what it would be if
+power were supplied direct from water mains, at any reasonable rate. The
+following remarks will then relate almost exclusively to that class of
+hydraulic elevators supplied with power directly from the water mains.
+
+Let us now consider whether they are a desirable source of revenue, and
+in this my knowledge does not exceed my actual experience. Few elevator
+users appreciate the great quantity of water their elevators consume.
+Even in Kansas City, where, on account of the high pressure carried,
+much smaller cylinders than ordinarily are required, it is found that
+passenger elevators frequently consume 500,000 to 800,000 gallons of
+water per month, which will make a very considerable bill, at the most
+liberal rates. I have, therefore, concluded that the quantity of water
+was so large that, unless liberal concessions were made, it would be a
+hardship to consumers to pay their water bills, and have therefore made
+a special schedule, according to quantity, for elevators and motors,
+these rates standing below our regular meter rates, and running to the
+lowest point at which we think we can afford to furnish the water. This
+schedule brings the rate below what we would receive for almost any
+other legitimate use of water; and, in view of our rapidly increasing
+consumption, and the probability of soon having to increase all our
+facilities, it is an open question whether this will continue a
+desirable source of revenue.
+
+In Kansas City we have elevators of various manufacture: the Hale-Otis,
+Ready, Smith & Beggs, O'Keefe, Kennedy, and perhaps others, each having
+its peculiarities, but alike demanding large openings in the mains
+for supply. These large openings are objectionable features with any
+waterworks, and especially so with direct pumping. An occurrence from
+this cause, about two years ago, is an experience I should not like
+repeated, but is one that might occur whenever the pressure in the mains
+is depended upon to throw fire streams. In this instance a large block
+of buildings occupied by jobbing houses and having three elevators was
+burned down, and the elevator connections broken early in the fire,
+allowing the water to pour into the cellars in the volume of about
+twelve ordinary fire streams. This immense quantity of water had to be
+supplied from a 6-inch main, fed from only one end, which left little
+pressure available for fighting the fire, and as a matter of course
+failure to subdue the fire promptly was attributed to the water-works.
+We have since had up hill work to restore confidence as to our ability
+to throw fire streams, although we have demonstrated the fact hundreds
+of times since.
+
+From this time we have been gradually cutting down on the size of
+openings for elevator supply, but under protest of the elevator agents,
+who have always claimed that they should be allowed at least a 4-inch
+opening in the mains, until we have found that under 80 to 90 pounds
+pressure two to four 1-inch taps will answer the purpose, provided the
+water pipes are of ample size.
+
+The "water hammer" produced by the quick acting valves of elevators has
+always been objectionable, both in its effect at the pumping-house
+and upon water mains and connections. To obviate this, Engineer G. W.
+Pearson has suggested the use of very large air chambers on the elevator
+supply, and still smaller openings in the mains, his theory being that
+the air chambers would not only materially decrease the concussion or
+"water hammer," but that they would also act as accumulators of power
+(or water under pressure) to be drawn from at each trip of the elevator,
+and replaced when it was at rest. This plan I have never seen put to
+actual test, but believe it to be entirely practicable, and that we will
+have to ultimately adopt it.
+
+All things considered, the plan of operating elevators from tanks in
+the top of buildings, supplied by a small pipe connected with the
+water-mains and arranged with a float valve to keep the tank filled, I
+believe to be the best manner of supply, except for the great additional
+cost of putting up such apparatus. By this arrangement the amount of
+water consumed is no less, in fact it would ordinarily be more than with
+a direct connection with the mains, but it has the advantage of taking
+the water in the least objectionable manner. Still, if this mode of
+supply were generally enforced, the large first cost, an additional
+expense of operating, would undoubtedly deter many from using elevators.
+
+Another evil in connection with the use of elevators, and which no doubt
+is common, is the habit many parties have of keeping a key or wrench to
+turn on and off the water at the curb. This we have sought to remedy
+by embracing in our plumbers' rules the following: "All elevator
+connections in addition to the curb stop for the use of the Water
+Company must be provided with another valve where the pipe first enters
+the building for the use of occupants of the building." Without this
+extra valve it was found almost impossible to keep parties from using
+the curb valve. In most cases the persons were perfectly responsible,
+and as there was no intent to defraud the company by the act, they would
+claim this privilege as a precaution against the pipes bursting or
+freezing. This practice was very generally carried on, and was the
+direct cause in at least two cases of very serious damage. In the
+instances referred to, the pipes burst between the elevator and the
+area wall of buildings, and the valves outside had become so worn
+from frequent use that they would not operate, allowing the water to
+literally deluge the basements before the water main could be turned
+off.
+
+One of the greatest causes of waste from elevators is the wearing out of
+the piston packing, this being particularly troublesome in most of the
+Western cities, where the water supplied is to a large extent from
+turbid streams, carrying more or less fine sand or "grit," which cuts
+out the packing of the pistons very rapidly. The only practicable remedy
+for this is close inspection, to see that the pistons do not allow water
+to pass, a fact that can readily be determined from the noise made in
+the cylinder when the elevator is in motion going upward.
+
+I have reserved one of the most annoying features of elevator supply for
+the last, hoping to work myself into a mood to do the subject justice,
+but doubt if it can be done in language proper to use before this
+dignified body. I remember on one occasion the mayor of our city, in
+discussing a job of plumbing, said that it seemed to him "that even a
+plumber ought to know something about plumbing." Now it would seem that
+even elevator agents ought to know something about elevators, but from
+the following incident, which is but one of many, I am led to believe
+that they are not infallible to say the least. Only a short time since,
+one of these very reliable (?) agents reported at our office that he had
+just attached a new indicator to the elevator of a leading hotel. He was
+asked: "What does it register?" and promptly replied, "Cubic feet."
+In this case our inspector had already made an examination, and had
+correctly reported as follows: "Hale elevator; indicator started at zero
+February 28; internal diameter of cylinder, 12 inches; travel of piston
+for complete trip 30� feet; indicator registers for complete trip, 4."
+
+When it is understood that we had for a long time been assuming that
+elevator agents knew about all there was to know on the subject, a
+comparison of statements of this agent and our inspector is somewhat
+startling. Now let us see what the difference amounted to: At the end of
+the month the indicator had registered 12,994; calling it cubic feet,
+this register would equal 97,195 gallons. According to our inspector,
+this same register would equal 578,233 gallons, or a difference of
+nearly half a million of gallons for a single month. Our experience with
+the agents in Kansas City has shown that they will, if allowed, put any
+kind of an indicator on the most convenient point of any sort of an
+elevator, without the slightest regard as to what it was intended to
+indicate; then report it as registering cubic or lineal feet, whichever
+they find the indicator marked. On the same principle they could as
+well change the fulcrum of a Fairbanks scale, and then claim it weighed
+pounds correctly, because pounds were marked upon the bar. We have
+lately prepared a blank, upon which these agents are required to make a
+detailed report upon the completion of an elevator before the water
+will be turned on, which it is hoped will to some extent correct this
+trouble.
+
+I have come to regard an elevator indicator with a feeling of wonder.
+Some years ago, when the "planchette" first came out, I remember that
+it acquired quite a reputation as a particularly erratic piece of
+mechanism, but for real mystery and _innate cussedness_, on general
+principles, commend me to the indicator. Why, I have known an indicator
+after registering a nice water bill, to deliberately and without
+provocation commence taking it all off again, by going backward. This
+crab-like maneuver the agent readily explained by saying the "ratchet
+had turned over," but even he was unable to show us how to make the
+bills after these peculiar gyrations. I also find that it is quite a
+favorite amusement for indicators to stop entirely, like a balky horse,
+after which no amount of persuasion will bring them to a realizing sense
+of their duty.
+
+Even at the best, these indicators are very apt to get out of order,
+necessitating greater watchfulness in supplying elevators than for any
+other purpose for which water is furnished.
+
+Accidents in connection with the use of elevators are common throughout
+the country, and in Kansas City had, until within a short time, become
+of altogether too frequent occurrence. The great cause of this I believe
+to be due to the fact that the parties who usually operate elevators
+are the very ones who know least about them; the corrosion of pistons,
+crystallization and oxidation of cables, and many other disorders common
+to elevators, being matters they do not comprehend. The frequency
+and fatality of these accidents in Kansas City finally led the city
+authorities to appoint an Elevator Inspector, who is under heavy bond,
+and whose duty is to examine every elevator at least once a month, and
+to grant license to run only such as he deems in safe condition. Thus
+far since the establishment of this office we have had no serious
+accidents, which leads me to the belief that in most cases a monthly
+examination will discover in time the causes of many terrible
+casualties; also that it is not safe to operate elevators unless so
+inspected by some competent person.
+
+The hatchways of elevators in large buildings are points greatly feared
+by firemen. They well know that when a fire once reaches this shaft, it
+takes but a moment for it to be carried from floor to floor, until the
+building is soon past saving. Although this great danger is well known,
+it is the exception rather than the rule to provide elevators with
+fire-proof hatches. A properly constructed elevator should, it seems
+to me, be provided with hatches, or better still, built within brick
+fire-proof walls, with openings to be kept closed when not in use. In
+this way costly buildings, valuable merchandise, and many lives would be
+saved from fire every year.
+
+Although considerable has been said on the subject of elevators, I am
+aware that the ground has not been covered, and that difficulties have
+been pointed out more than remedies suggested. There is much yet to be
+brought out by the engineers, to whom the subject more properly belongs.
+
+In the mean time, although elevators claim many of the objectionable
+features in the business of water supply, most of them are not of a
+nature that should condemn their use; on the contrary, I hope that
+with the joining of our experience there will be an improvement in the
+methods of their supply. Inasmuch as they must be furnished with water,
+all that can be done is to adopt such rules and fix such rates as will
+compensate in some degree for their objectionable qualities.
+
+
+WATER MOTORS.
+
+My remarks on this subject I trust will be more to the have been point
+than they upon the questions already discussed. Certainly my ideas are
+more decided, so far at least as supplying water motors is concerned.
+
+In many respects I believe water motors furnish as nearly perfect power
+as it is possible to attain. A motor, for instance, properly connected
+and supplied by the even pressure from a reservoir is probably the most
+reliable and steady power known, not excepting the most improved and
+costly steam engines. The convenience and little attendance necessary in
+operating make them especially desirable for many purposes. Where only
+small power is required, or even where considerable power for only
+occasional use is desired, they are particularly well adapted, and
+can be driven at small expense. Even for greater power they possess
+advantages over steam engines which, to a considerable extent,
+compensate for the large water rates that ought to be paid for their
+supply. These advantages are in the first cost of a motor, as compared
+with a steam engine, the saving in attendance and fuel, the convenience
+and cleanliness, and in some cases a saving in insurance by reason of
+their being no fire risks attendant upon its use. At just what point
+steam becomes preferable, however, is a question depending considerably
+upon water rates, but to some extent on other circumstances, leaving
+it largely a question of judgment. As with elevators, there are
+difficulties involved in their supply that unless carefully guarded make
+water motors anything but a desirable source of revenue. How often is
+the argument advanced: "Why, I only use water for a quarter of an inch
+jet!" Showing how little people who use motors or elevators or fountains
+realize the quantity of water they consume. This class of consumers may
+be placed on one footing, to wit, a class who, in spite of the fact that
+they are supplied with water for much less than any other, feel that
+they are imposed upon, and cannot be made to think otherwise.
+
+Though not as large as for elevator supply, water motors require liberal
+openings in the mains, and frequently the fault of having too small
+supply pipes is sought to be remedied by openings in the water mains
+much larger than needful. A table prepared by an engineer who had given
+the matter study, or by some motor manufacturer, showing the size of
+taps, or openings, for the proper supply of motors, with the various
+jets, under different pressures, would be of general use to water-works
+people. In order to use water to the best advantage, the full pressure
+in the main, so far as practicable, should be had at the jet, but in
+order to accomplish this it is not necessary to use as large taps as are
+ordinarily demanded, but to provide supply pipes of sufficient capacity
+to deliver the water to the point of discharge with the least possible
+friction. Lately this theory has been put in practice to some extent by
+us, and the result has shown that in this manner we are able to supply
+motors through smaller taps than beforehand with as satisfactory
+results.
+
+It is a general practice throughout the country to make annual or
+monthly rates for water motors, and from my observation I believe I can
+safely venture the assertion that in three-quarters of the cases the
+rates charged will not equal 50 per cent. of the lowest meter rates in
+force in these places. Although the Kansas City Water-Works has not
+perhaps been generally accorded the reputation of being the most liberal
+"monopoly" in the country, still I have had occasion at times to make
+some such claims as an inducement to its generous support. But with all
+its liberality, I am free to say that we cannot begin to meet the rates
+for motors that parties claim to have paid almost everywhere else.
+
+The St. Louis Water-Works, where the rates are substantially the same as
+in Kansas City, have been quoted as having the following motor rates,
+but whether correct or not my inquiries have failed to determine:
+
+"On the supposition that motors are to be used ten hours per day for 300
+days per year, motors are assessed for--
+
+  ___________________________________
+    1/4 inch jets | $120 per annum. |
+    3/8  "        |  198  "   "     |
+    1/2  "        |  300  "   "     |
+  ----------------+-----------------+
+
+These rates based upon a charge of 50 cents per 1,000 gallons."
+
+From Col. Flad's Report as Engineer of Public Works, May 1, 1876, p.70,
+it is found that with 42 pounds pressure a � inch orifice will discharge
+2,160 gallons per hour, 21,600 gallons in 10 hours, or 6,480,000 gallons
+in 300 days, which at 20 cents per 1,000 gallons would amount to $1,296,
+for which they assess the rate $300. From all of which I would conclude
+that there must be a lack of harmony somewhere between the engineering
+and office departments.
+
+I have made some estimates myself for water motors, basing rates upon
+the number of hours it was claimed the motors would be in use, and
+afterward supplied the same motors by meter measurement; in every case
+found that at least twice as much water was used as had been estimated.
+Although estimates were carefully made upon what was believed to be
+a reliable basis, these repeated similar results have led me to the
+conclusion that the only way to supply motors is to make it an object to
+the users of them to be economical. In other words, I believe the way to
+supply water motors is upon an estimate that they will run 24 hours per
+day and 365 days per year, or, more properly still, supply them only by
+meter measurement. At all events this is henceforth my policy; or, in
+other words, "on this rock I stand," believing it the only equitable way
+out of this difficulty.
+
+That class of motors or water engines operated by water pressure in
+close cylinders upon pistons as with steam in a steam engine, I believe
+could be easily supplied by measurement of water without a meter. This
+could be accomplished by the use of "revolution counters" or indicators,
+as the amount of water required per revolution could be readily
+determined, and when once computed the cylinders would measure out the
+water as accurately as a meter. The only objection to this plan is the
+expense of counters, which is considerable; and as to indicators, it may
+have been observed that I have little faith in their reliability. With
+cheap revolution this class of motors would be free from many of the
+objections raised in regard to motors generally.
+
+The practical conclusion that I would draw from a consideration of
+this subject is that the question of whether the supply of hydraulic
+elevators and motors is desirable in its effects upon the water supply
+is one that hinges so delicately upon their being carefully governed,
+connected, and restricted, that while on the one hand they may be made
+the source of large profit, and at the same time a public benefit, on
+the other hand, unless all the details of their supply be carefully
+guarded by the wisest rules and greatest watchfulness, their capacities
+for waste are so great and the rates charged necessarily so low, that
+they may become the greatest source of loss with which we have to
+contend. I therefore trust that this discussion will be continued until
+an interest is felt that will result in our all receiving much useful
+information upon two most important factors of our business.
+
+As this paper has been long for the information contained, I will close
+with the earnest wish that it may at least be of service in bringing
+these important but often neglected subjects to the attention of the
+thinking and intelligent body of men, of whom many have had much longer
+and more general experience in relation to these matters, and whose
+views when expressed will consequently be of more interest and have
+greater weight. Thus as a result may we all derive the benefit of
+whatever useful information there is to be gained by this annual
+interchange of experiences in the all-important business of public water
+supply.
+
+       *       *       *       *       *
+
+
+
+
+WATER SUPPLY OF SMALL TOWNS.
+
+
+We now describe the new waterworks lately erected for supplying the town
+of Cougleton, Cheshire. The population is about 12,000, and the place is
+a seat of the silk manufacture. After various expensive plans had been
+suggested, in the year 1879 a complete scheme for the supply of the town
+with water was devised by the then borough surveyor, Mr. Wm. Blackshaw,
+now borough surveyor of Stafford. These we now illustrate above by a
+general drawing, and a separate drawing of the tower. With respect
+to the mechanical arrangements, the Corporation called in Mr. W. H.
+Thornbery, of Birmingham, consulting engineer, to decide on the best
+design of those submitted, and this, with modifications made by him, was
+carried out under his inspection. The water, for the supply by pumping,
+is obtained from springs situated at the foot of Crossledge Hill, about
+a mile from the town. It does not at present require filtering, but
+space enough has been allowed for the construction of duplicate
+filtering beds without in any way interfering with the present
+appliances. These filter beds are shown in our perspective illustration,
+but they are not yet built or required.
+
+[Illustration: WATER SUPPLY OF SMALL TOWNS--CONGLETON WATERWORKS.]
+
+The waterworks are situated very near the springs, from which they are
+only separated by a road, under which the collecting pipes run. There
+are two circular collecting tanks of brickwork, two pumping wells,
+engine-house, boiler-house, chimney stack, and engine-driver's
+dwelling-house, all inclosed by a wall. On the top of Crossledge Hill is
+erected a circular brick water tower 35 ft. high to the underside of the
+service tank, which is of cast iron 30 ft. internal diameter, supported
+on rolled girders. The tank is capable of containing 50,000 gallons
+of water, and it is provided with the usual rising and service mains,
+overflow and washout pipes. There is an arrangement for pumping direct
+into the mains in case the tank should require cleaning or repairing.
+
+The pumping machinery is in duplicate, and each set consists of a
+horizontal condensing engine, with cylinder 18 in. diameter, stroke 30
+in., fitted with Meyer's expansion gear, governor, fly-wheel 12 ft.
+diameter, weighing 4 tons, jet condenser with a single acting vertical
+air pump, situated below the engine room floor, and between the end
+of the cylinder and the main pump. Each main pump is 10 in. diameter,
+horizontal, double-acting, worked by a prolongation backward of the
+piston-rod. The valves and seats are of gun metal, 8� in. diameter. The
+capacity is 350 gallons per minute, raised 206 ft. The air vessel is 21
+in. internal diameter and 6 ft. high, and is fitted with a hand pump for
+renewing the supply of air if necessary. The rising main from the air
+vessel to the service tank is 9 in. diameter, and 307 yards long, laid
+up the steep slope of the hill on which the water tower is built. The
+boilers, two in number, are of the ordinary Cornish single-flued type, 5
+ft. diameter by 18 ft. long, with flue 2 ft. 9 in. diameter, with three
+Galloway tubes. They were made by Messrs. Hill & Co., of Manchester. The
+engines and pumps were made by Mr. Albert Scragg, of Congleton, and the
+brick, stone, and builder's work was executed by Mr. Thomas Kirk. The
+waterworks were opened in the autumn of 1881, and since then have
+constantly afforded an abundant supply of water. There is also an
+independent gravitation system, also arranged by Mr. Blackshaw, for
+supplying an outlying part of the town. The cost of the works was
+exceedingly moderate, being not more than �12,000, including the water
+mains for distribution.
+
+
+PROCESS FOR SOFTENING HARD WATER.
+
+The available water of many villages and small towns is that of the
+chalk beds, but it is invariably very hard, and should be softened. We
+have received so many inquiries respecting a simple means of carrying
+out Clarke's water-softening process, that the following description
+of a set of apparatus devised for this purpose by Messrs. Law and
+Chatterton, MM.I.C.E., may interest many besides those who contemplate
+the construction of small waterworks supplied by the chalk springs.
+
+The apparatus, as made in various sizes by Messrs. Bowes, Scott,
+and Read, of Broadway-chambers, Westminster, we illustrate by the
+accompanying engravings.
+
+_Softening hard water_.--The disadvantages attending the use of hard
+water either for drinking purposes, steam generation, lavatory purposes,
+and for many manufacturing purposes, are well known, but as there are
+several methods of softening waters which are hard in different degrees
+by different substances, we may be pardoned if we here reproduce, for
+the convenience of some of our readers, a few passages from the sixth
+report of the River Pollution Commission, 1874, pages 21 and 201-16,
+which give some very valuable information on the relative merits of
+hard and soft waters in domestic and trade uses. "Some of the mineral
+substances which occur in solution in potable waters communicate to the
+latter the quality of hardness. Hard water decomposes soap, and cannot
+be efficiently used for washing. The chief hardening ingredients are
+salts of lime and magnesia. In the decomposition of soap these salts
+form curdy and insoluble compounds containing the fatty acids of
+the soap and the lime and magnesia of the salts. So long as this
+decomposition goes on the soap is useless as a detergent, and it is
+only after all the lime and magnesia salts have been decomposed at the
+expense of the soap, that the latter begins to exert a useful effect.
+As soon as this is the case, however, the slightest further addition of
+soap produces a lather when the water is agitated, but this lather is
+again destroyed by the addition of a further quantity of hard water.
+Thus the addition of hard water to a solution of soap, or the converse
+of this operation, causes the production of the insoluble curdy matter
+before mentioned. These facts render intelligible the process of washing
+the skin with soap and hard water. The skin is first wetted with the
+water and then soap is applied; the latter decomposes the hardening
+salts contained in the small quantity of water with which the skin
+is covered, and there is then formed a strong solution of soap which
+penetrates into the pores, and now the lather and impurities which it
+has imbibed require to be removed from the skin by wiping the lather off
+with a towel or by rinsing it away with water. In the former case the
+pores of the skin are left filled with soap solution; in the latter they
+become clogged with the greasy, curdy matter which results from the
+action of the hard water upon the soap solution which had previously
+gained possession of the pores of the cuticle. As the latter process of
+removing the lather is the one universally adopted, the operation of
+washing with soap and hard water is analogous to that used by the dyer
+and calico printer for fixing pigments in calico, woolen, or silk
+tissues. The pores of the skin are filled with insoluble greasy and
+curdy salts of the fatty acids contained in the soap, and it is only
+because the insoluble pigment produced is white, or nearly so, that so
+repulsive an operation is tolerated. To those, however, who have been
+accustomed to wash in soft water, the abnormal condition of skin thus
+induced is for a long time extremely unpleasant.
+
+Of the hardening salts present in potable water, carbonate of lime is
+the one most generally met with, and to obtain a numerical expression
+for this quality of hardness a sample of water containing 1 lb. of
+carbonate of lime, or its equivalent of other hardening salts, in
+100,000 lb.--10,000 gallons--is said to have 1� of hardness. Each degree
+of hardness indicates the destruction and waste of 12 lb. of the best
+hard soap by 10,000 gallons of water when used for washing. Hard water
+frequently becomes softer after it has been boiled for some time. When
+this is the case, a portion at least of the original hardening effect is
+due to the bicarbonate of lime and magnesia. These salts are decomposed
+by boiling into free carbonic acid, which escapes as gas, leaving
+carbonates of lime and magnesia; the latter being nearly insoluble in
+water, ceases to exert more than a very slight hardening effect, and
+produces a precipitate. As the hardness resulting from the carbonates
+of lime and magnesia is thus removable by boiling the water, it is
+designated temporary hardness, while the hardening effect which is due
+chiefly to the sulphates of lime and magnesia, and cannot be got rid of
+by boiling, is termed permanent hardness. The total hardness of water
+is therefore commonly made up of temporary and permanent hardness.
+A constant supply of hot water is now almost a necessity in every
+household, but great difficulties are thrown in the way of its
+attainment by the supply of hard water to towns forming thick calcareous
+crusts in the heating apparatus.
+
+Waters with much temporary hardness are most objectionable in this
+respect, and the evil is so great where the heating is effected in a
+coil of pipe, as practically to prevent, in towns with hard water, the
+use of this most convenient method of heating water. The property of
+being softened by boiling which temporarily hard water possesses is not
+of much domestic use, for water is, as a rule, either not raised to a
+sufficiently high temperature or not kept at it for a long enough time.
+Seeing then the disadvantages attendant on the use of hard water, it
+remains to be considered how best to soften it. Four processes are known
+to the arts. They are: Distillation, carbonate of soda, boiling, lime.
+Of these processes the first and second are the most effective, but
+owing to their expense are not applicable on a large scale. The third
+and fourth processes are efficient only with certain classes of water,
+rendered hard by the presence of the bicarbonate of lime, magnesia,
+or iron. The fourth is, however, a very cheap process, and is easily
+applicable to the vast volumes of water supplied to large cities,
+provided the hardening ingredients are of the character described.
+
+_Softening by distillation_.--By evaporation, water is completely
+separated from all fixed saline matters, and consequently from all
+hardening matters. Distilled water, however, has a vapid and unpleasant
+taste, due partly to deficient aeration and partly to the presence of
+traces of volatile organic matter; and though filtration through animal
+charcoal will remove this, and the aeration can begin chemically, the
+process is too expensive, except in certain cases, as on board ship, or
+at military or naval stations where no potable water exists.
+
+_Softening by carbonate of soda_.--The hardness of water, as already
+explained, being principally due to the presence in solution of
+bicarbonates and sulphates of lime and magnesia, can be reduced by
+addition of carbonate of soda, which decomposes these salts slowly in
+cold water but quickly in hot, forming insoluble compounds of lime and
+magnesia, which are slowly precipitated as a fine mud, leaving the water
+charged, however, with a solution of bicarbonate and sulphate of soda.
+This process, on account of expense, is only applicable on a small scale
+to the water for laundry purposes, as the water acquires an unpleasant
+taste from the presence of the soda salts. For laundry purposes it is,
+however, valuable, as it effects a great saving of soap.
+
+_The softening of water by boiling_.--That portion of the hardness of
+water due to the presence of bicarbonate of lime, magnesia, or iron, is
+corrected by boiling the water for half an hour. During ebullition the
+bicarbonates, which are soluble, become carbonates, which are insoluble,
+giving off their carbonic acid as gas, rendering--by the precipitate
+produced, but not allowed in a boiler time to settle--the water muddy,
+but incapable of decomposing soap. To raise the temperature of 1,000
+gallons of water to the boiling point and to maintain it for half an
+hour requires the consumption of about 2� cwt. of coal, or by the
+wasteful appliances found in households, probably three times that
+amount. Softened by boiling, then, 1,000 gallons of water would cost
+about 7s. 6d., while the cost of softening the same amount by soap is
+9s., at �2 6s. 6d. per cwt.
+
+_The softening of water by lime_.--The economy which carbonate of
+soda exhibits in comparison with soap as a softening material is far
+surpassed by the use of lime. Lime costs about 8d. per cwt., and this
+weight of lime will soften the same volume of water as would require the
+use of 20� cwt. of soap. From the above it is evident--so soon as it is
+conceded that there is an advantage in using soft water--that the lime
+process is by far the most economical. Besides the chemical action
+affecting the hardness, it has another most important mechanical action,
+in consequence of the weight of each particle composing the precipitate
+produced by it. These particles during subsidence become attached to the
+almost microscopical organic impurities present in all river water, and
+drag them down to the bottom of the settling tank, whereby the water is
+rendered, after some eight hours, clear as crystal. The average cost of
+the water supplied by the leading metropolitan water companies is �10
+10s. 9�d. per million gallons. The charge made by the companies to
+consumers is about 6d. per 1,000 gallons, or �25 per million gallons.
+It has been found that water can on a large scale be softened from 14�
+hardness to 5� at a cost of 20s. per million gallons--that is, 10 per
+cent. on the cost of the water to the companies, or 4 per cent. as the
+price charged to consumers. This estimate does not take into account the
+value of the precipitated chalk, which has a market price, and is used
+for many purposes, being, in fact, whiting of the purest quality. The
+operations necessary in Clarke's process are four in number: (1) The
+preparation of milk of lime; (2) the preparation of a saturated solution
+of lime; (3) the mixture of this solution with the water to be softened;
+(4) the classification of the softened water by the separation of
+the precipitated substances Messrs. Law and Chatterton effect these
+processes by simple mechanical means which are so far automatic that
+they only require the presence of a person, without technical knowledge,
+once in each twenty-four hours. No filtering medium whatever is
+required, which is a great advantage for the following reasons: (1)
+Filtering materials require periodical cleaning and renewal, which
+not only occasion much trouble and mess, but are also frequently
+inefficiently performed. (2) Experience has shown that the filtering
+material, whether cloth, charcoal, or other substance, is extremely
+liable to become mouldy or musty, which makes the wafer both unwholesome
+and unpalatable. This system is especially adapted for small water
+supplies and for use in country houses, there being no operation to
+perform requiring either technical, chemical, or mechanical knowledge,
+nor producing dust or dirt.
+
+[Illustration: Fig. 1.--LAW AND CHATTERTON'S WATER-SOFTENING APPARTUS.]
+
+The following is a description of this apparatus as fitted at the
+Hoo, Luton, Bedfordshire, for the supply of Mr. Gerard Leigh's house,
+grounds, and home farm. The mixing of the lime and the subsequent
+stirring of the water is effected by water power obtained from a
+turbine. The whole of the apparatus and tanks occupy a space 60 ft.
+square, 3,600 ft. area, and soften a daily supply of 50,000 gallons.
+
+[Illustration: Fig. 2]
+
+A pump driven from the turbine forces the water to a reservoir in the
+park and on to the house, an ingenious automatic arrangement worked by
+the overflow from the cistern throwing the pump out of gear when the
+tank is full. A, B, and C. Figs. 1 to 6 herewith, are three tanks in
+which the water remains to be softened, each capable of holding one
+day's supply. D and E are two smaller tanks in which the lime water is
+prepared; X is the automatic valve apparatus by which the connections
+between the several tanks are effected in the order and at the times
+required; H and H show the positions in which two pumps should be
+placed, the former for pumping unsoftened water into the tanks, the
+latter to pump the softened water into the supply cistern. J is the pipe
+from the well or other source of supply--in case the supply is at a
+higher level, one pump can be dispensed with. The operation consists in
+adding to the water to be softened a certain quantity of lime water,
+depending upon the degree of hardness, and in then allowing the mixture
+to rest in a state of perfect quiescence until the whole of the lime has
+been deposited and the water has become perfectly clear. The tank, A,
+has been filled with unsoftened water. Tank B contains the water
+and lime in process of clarification by subsidence after mechanical
+agitation by the screw. Tank C contains the softened water--and the
+precipitate--in process of removal for consumption. The mode of working
+is as follows: The milk of lime, prepared by slaking new lime in a
+"Michele mixer"--not shown. One of the tanks, D, having been filled with
+softened water, run by gravity from one of the tanks, A, B, or C, the
+requisite amount of milk of lime is allowed to flow into it from the
+lining machine, and the whole having been thoroughly mixed by the patent
+agitator, G, is left in a quiescent state for some hours, when the
+superabundant lime falls to the bottom, and the tank contains a
+perfectly clear and saturated solution of lime. The requisite quantity
+of lime water is then suffered to flow by gravity into whichever of the
+three tanks is empty. In the mean while, the softened water is being
+withdrawn by pumping or gravitation, as the case may be, from the tank
+C, until, upon the water being lowered to within a certain distance of
+the bottom, an automatic arrangement shifts the valve, X, so that the
+supply then commences from B, the unsoftened water flows into C, and
+the water is in process of clarification in A, and thus the operation
+proceeds continuously. Where the water can be supplied by gravitation,
+and the tanks can be placed at a sufficient elevation to command the
+service cistern, no pumps are required, the softening process, in fact,
+in no way necessitating pumping. The space occupied by the whole of the
+tanks and apparatus is 60 ft. square, 3,600 ft. area, and softens 50,000
+gallons per day. For the daily softening of quantities less than 1,000
+gallons, the tanks are made of galvanized sheet iron, and the whole
+apparatus and tanks are self-contained, so as only to require the making
+of the necessary connections with the existing supply and delivery
+pipes, and fixing in place. No expensive foundations are required, and
+the entire cost of an apparatus--see Figs. 2, 3, 4, 5, and 6--capable of
+softening 500 gallons per day is about �75. Annexed is a more detailed
+description of the manner of fixing and working the smaller apparatus.
+
+[Illustration: Fig. 3]
+
+The tank must, of course, be set up perfectly level. The pipe from the
+source of supply--in the present case from the hydraulic ram--must
+be attached to the upper three way cock at A, on the accompanying
+engravings, and the pipe to supply softened water is to be connected
+to the lower three-way cock at B, and should be led into the elevated
+cistern with a ball cock so as to keep it always filled. The three ball
+cocks in C, D, and E should be adjusted to allow the tanks to fill to
+within 3 in. of the top. The nuts at the upper extremity of the three
+rods, F, G, and H, should be so adjusted that when the water in the
+several tanks has been drawn down to within 15 in. of the bottom the
+rocking shaft, I I, is drawn down and the vertical rod, J, lifted so as
+to allow the wheel, K, and spindle, L, to revolve by the action of the
+weight, M. The length of the chain is such that when the weight, M,
+rests upon the floor the face of the raised rim on the wheel, K, should
+not quite touch the rod, J, and if necessary, a thin packing should be
+put for the weight to drop upon. The lime to be used should be pure
+chalk lime free from clay, mixed with water to a smooth, creamy
+consistency, and then poured into the small tank, N. This tank should
+then be filled with water to within 3 in. of the top, and the small air
+pump worked until the lime has become thoroughly mixed and diffused
+throughout the water. Care must be taken that previous to filling the
+tank the float, O, is raised up, as shown by the dotted lines in Fig. 3.
+After the lime has been thoroughly mixed it should be left for at
+least eight hours for the superabundant lime to subside, leaving the
+supernatant fluid a perfectly clear saturated solution of lime. At the
+end of this time the float, O, should be lowered, so that it may float
+upon the lime water, and the three-way cock, P, should be turned in such
+a position as to allow the contents of the tank, N, run into the
+tank, Q, until the necessary quantity has been supplied, the mode of
+determining which is hereinafter described.
+
+[Illustration: Fig. 4]
+
+The spindle, L, should then be turned into the position which allows the
+water from the source of supply to be discharged into the tank, Q, the
+float, R, having first been raised into the position shown in Figs. 2
+and 5. A second quantity of the lime should now be added to the tank, N,
+mixed with water, and after agitation, another eight hours allowed for
+the contents of both the tanks, Q and N, to subside. At the end of
+this time the three-way cock, P, should be turned through a third of
+a circle, so as to discharge the lime water into the tank, S; and the
+spindle, L, should be turned in the contrary direction to the hands of a
+watch through the third of a circle, so as to allow the water from the
+source of supply to be discharged into the tank, S, care being taken as
+before to raise the float, T, out of the water. A third quantity of lime
+must be added to the tank, N, and now mixed with water to be drawn from
+the tank, Q, by the tap, U, and after agitation again left for eight
+hours to subside. The float, R, may now be lowered into the water in the
+tank, Q, when it will be found that the clear softened water contained
+in the tank, Q, will be discharged through the pipe attached to the
+bottom of the three way tap, B. The weight, M, must now be lifted about
+5 in., so as to allow the ring at the end of the chain to be moved back
+to the next stud on the wheel, K. The lime water in the tank, N, must
+next be discharged into the tank, V, and then another quantity of lime
+must be added to the tank, N, and filled up with softened water from the
+tank, S, by means of the tap, W, and after being duly agitated and left
+to subside. As soon as the softened water from the tank, Q, has been
+drawn down to within 15 in. of the bottom, the rod, H, will move the
+rocking shaft, I, and lift the rod, J, so releasing the wheel, K, and
+allowing the weight, M, to descend and turn the spindle, L, and the
+upper and lower three-way cocks through a third of a circle; the effect
+of which movement will be to continue the supply of softened water from
+the tank, S, and to fill up the tank, V, with water from the source of
+supply.
+
+[Illustration: Fig. 5]
+
+The apparatus will now be in the condition to afford a regular supply
+of softened water; all that will be necessary to insure its continuous
+action will be that at certain stated intervals dependent upon the
+rapidity with which the water is used--but which interval should not
+be less than eight hours--the following things should be done: (1) The
+float must be raised out of the tank last emptied. (2) The float must be
+lowered into the tank last filled. (3) The weight, M, must be raised,
+and the ring of the chain shifted to the next stud on the wheel, K. (4)
+The clear lime water found in the tank, N, must be turned into the tank
+last emptied. (5) The requisite quantity of lime must be put into the
+tank, N. (6) The requisite quantity of water must be drawn off from the
+tank last filled into the tank, N. (7) The contents of tank, N, must be
+thoroughly mixed by means of the air pump. The quantity of lime to be
+used for each tankful of water must depend upon the hardness of the
+water, � oz. being required for each tankful for each degree of
+hardness. It is desirable, however, always to have an excess of lime in
+the tank, N, so as to insure obtaining a saturated solution of lime.
+When first mixed the contents of the tank, N, will have a creamy
+appearance, but when the superabundant lime has subsided the supernatant
+liquid will be a perfectly clear saturated solution of lime. Therefore,
+in the first instance, 3 lb. of lime should be put into the tank, N, and
+subsequently each time such a quantity of lime should be added as is
+found to be necessary by the method hereinafter described. The quantity
+of the saturated lime water to be run into each of the softening tanks,
+Q, S, and V, will depend upon the hardness of the water. For every
+degree of temporary hardness a depth of 1-6/10 in. of the contents of
+the tank, N, will be required; so that if the water has 14 deg. of
+temporary hardness, then 22� in. in depth of lime water must be run off
+into each of the tanks, Q, S, and V. In the first instance an excess of
+lime may be used, and the softened water tested by means of nitrate of
+silver in the following manner: A solution of 1 oz. of nitrate of silver
+in a pint of twice distilled water should be obtained. Having let two
+or three drops of this solution fall on the bottom of a white tea cup,
+slowly add the softened water; then if there be any excess of lime, a
+yellow color will show itself, and the quantity of lime water used must
+be reduced until only the faintest trace of color is perceptible.--_The
+Engineer_.
+
+[Illustration: Fig. 6]
+
+       *       *       *       *       *
+
+
+
+
+IMPROVED WATER METER.
+
+
+We annex illustrations of a meter designed by Mr. A. Schmid, of Z�rich,
+and which, according to _Engineering_, is now considerably used on
+the Continent, not only for measuring water, but the sirup in sugar
+factories, in breweries, etc. It consists of a cast iron body containing
+two gun-metal-lined cylinders, and connected by an intermediate chamber.
+Round the body are formed two channels, one for the entrance and the
+other for the discharge of the water, etc., to be measured. Within the
+cylinder are placed two long pistons, provided with openings in such
+a way that each piston serves as a slide valve to the other, the flow
+being maintained through the ports in the connecting chamber. The
+arrangement of openings in the piston is shown in Figs. 5, 6, 7, and the
+intermediate passages in Figs. 1, 2, and 3. To the upper side of each
+piston is attached a cross-head working on a disk placed at each end of
+a horizontal shaft. To one of the disks is added a short connecting rod
+that drives the spindle of a counter.
+
+[Illustration: SCHMID'S WATER METER.]
+
+       *       *       *       *       *
+
+
+
+
+WASHING MACHINE FOR WOOL.
+
+
+The washing machines in use for wool on the rake principle have during
+the last few years experienced many improvements in the details of
+their arrangement, which we have illustrated at different times in our
+columns. The introduction of these improvements and alterations shows
+that the washing of wool has attracted more attention on the part of
+observant manufacturers and machine makers, and demonstrated at the same
+time that the machines hitherto in use, with all their advantages, left
+much to be desired in other respects. The main difficulty with all
+washing machines for wool has been the avoidance of felting of the wool,
+which tendency is increased by the use of warm water for washing and by
+the agitation that some consider necessary for a thorough cleansing of
+the wool and removal of the adhering impurities, but which agitation is
+deprecated by others.
+
+[Illustration: IMPROVED WOOL WASHING MACHINE.]
+
+Referring to our different illustrations of improvements in this
+direction, our subscribers will observe that the tendency of all these
+has been to keep the wool floating in the water, and to apply all
+mechanical appliances required for its cleansing and pressing as much as
+possible while it is in this suspended condition. The success which the
+different appliances and improvements mentioned by us have had when used
+for the class of wool for which they are intended, has induced us to
+look up any attempts in a similar direction which have been made on the
+Continent, where the subject has attracted attention, as well as with
+us. We therefore give the annexed illustration of a machine invented by
+a German woolen manufacturer, which in many respects is a wide departure
+from the acknowledged type in use in this country. As with the English
+machines, the wool enters from a creeper at one end, passes through a
+long trough, filled with water or lye, ascends an inclined plane, and
+passes out through a pair of squeezing rollers. The invention mentioned
+applies to the treatment in the trough which latter is shown in our
+illustration at K. It has a second bottom, a little distance from a
+false one, at K. The false bottom is traversed in its whole length by
+an air pipe, communicating with the atmospheric air outside the trough.
+From this longitudinal pipe other pipes branch off at right angles at
+stated intervals, as shown in section in Fig. 2. These smaller pipes
+contain a number of small perforations on their upper part, through
+which the air ascends into the water in innumerable small bubbles. This
+is one of the principal aims of the invention, for in ascending the
+bubbles lift the wool more or less to the surface and tend to open it
+out without the risk of doing so by any mechanical means liable to
+produce felting. This is the same effect that is produced in many cases
+so successfully in boiling. Instead of rakes the inventor has placed
+four hexagonal drums into the trough, marked D, E, F, G. The flat parts
+of these drums are made of perforated metal and set back a little. This
+produces an alternate passing of the water into and out of them during
+their revolution and consequent sucking and repulsing of the wool, which
+also likewise agitates it. These drums are made wide at the entrance end
+of the trough and gradually narrower toward the delivery end. The pipe,
+V V, is the usual steam pipe for heating the water.
+
+We have said before that the improvements introduced into the wool
+washing machines nearer home have been of advantage for the wools for
+which they are intended, and possibly the invention just described will
+also be valuable in some cases.--_Tex. Manuf._
+
+       *       *       *       *       *
+
+
+
+
+INCREASING THE ILLUMINATING POWER OF GASES, ETC.
+
+By V. POPP, of Paris.
+
+
+This invention relates to lighting by mixing air or other gaseous
+supporter of combustion with illuminating or other hydrocarbon gas or
+vapor, and burning the mixture (at a suitable pressure) in a burner of
+special construction, shown in the accompanying illustrations.
+
+[Illustration]
+
+The burner is constructed as shown in Figs 1 and 2. It consists of a
+central tube, i, screwing upon the pipe by which the gaseous mixture is
+supplied. Upon this tube is screwed a cup, k, of metal or refractory
+material which supports a cap, l, of fire-clay in the shape of a thimble
+(or of other form, according to the intended use of the burner). The
+flanged base of this cap is perforated with a ring of holes, m, as small
+and numerous as possible, and the sides of the cap are pierced with
+oblique perforations, n. The top of the tube, i, is provided with four
+small projections, upon which rests a copper cone, o, soldered to the
+tube at a point below the perforations in the base of the thimble. The
+cone is perforated at its lower end with small holes, p, the sum of
+whose areas is at least equal to the area of the tube. The thimble,
+l, is surrounded by an envelope, q, of platinum wire netting or other
+refractory material of the same form. The gaseous mixture arriving by
+the pipe, i, escapes at the upper orifices, r, and passes down against
+the interior surface of the cone, o, out at the orifices, p, and escapes
+through the orifices in the cap, l, at which it is burned. The cap is
+thereby raised to a high temperature; and the platinum wire sheath
+becoming incandescent radiates the light. The gaseous mixture, by coming
+first in contact with the copper cone and then with the refractory cap,
+becomes raised to an exceedingly high temperature before it is consumed.
+
+In the modified burner represented in Fig. 3, the metal cone and the
+fire-cap are truncated. The tube, i, is provided with a number of small
+perforations, r, at its upper end, the sum of whose areas is at least
+equal to the area of the tube, and by which the gaseous mixture is
+distributed within the chamber, k. Upon the upper closed end of the tube
+is fixed a cup or inverted thimble, o, of fire-clay. A refractory cone,
+l, surrounds this cup and rests by its base upon the cup. This flanged
+base is perforated with small vertical holes, m, and upon it is fixed a
+platinum wire cage or envelope, q. An annular space is left between the
+cone and cup for the passage of the gaseous mixture, which, on escaping
+from the orifices, r, passes over the exterior surface of o, the
+interior of which is already heated by the flame which has not passed
+through the wire gauze, and has been forced by the pressure of the
+mixture into the interior of o. The gaseous mixture before passing
+through the annular space thus attains such a temperature that on
+escaping from the orifice its combustion is greatly promoted.
+
+       *       *       *       *       *
+
+
+
+
+PREVENTING IRON FROM RUSTING.
+
+
+In the present state of civilization the use of iron has reached a very
+wide extension, and in a great number of cases iron is used where wood
+or stone was formerly used. It is certainly an important question how
+this metal can be protected under all circumstances against rust or
+oxidation, so that the many costly iron structures may retain their
+usefulness and strength, and be handed down uninjured to posterity.
+
+Wherever bright iron comes into contact with air and moisture it
+immediately begins to rust, and this rust is not content to continually
+rob it of its substance in its persistent progress by scaling off the
+surface, but at the same time it injures the remainder of the iron by
+making it brittle. Attempts have hitherto been made to protect the iron
+by covering it with other and less easily oxidizable metals. For this
+purpose tin was first selected, then lead and zinc, and recently nickel.
+Furthermore, earthy glazings and enamels, such as are used on stone
+ware, have been applied to iron vessels, and they have already found
+extensive use in the household. In most cases these coatings, either
+metallic or vitreous, are inapplicable, either because they cannot be
+applied or are too expensive, so that on a large scale recourse must be
+had to paints made by mixing oils with metallic oxides, earths, etc.,
+for protecting the surface of the iron from air and moisture.
+
+It has been observed that iron does not rust in _dry_ air, not even in
+dry oxygen. In like manner it frequently happens that unpainted iron,
+such as weather vanes, fences, etc., is exposed to the air for a century
+with very little injury, being covered with a thin coating of the
+magnetic oxide (proto-sesquioxide), which acts as a protection and
+prevents farther action. Hence it has been proposed to produce a layer
+of this magnetic oxide on the surface artificially, and it was found
+that superheated steam furnished the means for doing this. But it is not
+to be supposed that such a process would find use on a large scale, and
+besides this protection could only serve for iron tolerably exposed to
+the open air and not for that in direct contact with carbonic acid and
+water.
+
+An interesting observation has been made on railways that the iron
+rails, ties, bolts, etc., rust until the road begins to be used. Here we
+must assume that anything made of iron is more inclined to rust when at
+rest than if occasionally caused to vibrate, when an electrical action
+probably comes into play and decreases the affinity of iron for oxygen.
+
+In tearing down old masonry iron bonds and clamps are often found which
+are as free from rust, so far as they are covered with mortar, as they
+were the day they left the blacksmith's hands. A French engineer met
+with such a phenomenon when he uncovered the anchor plates of several
+chain bridges which had been built about thirty years. Where the anchors
+were covered with the fatty lime mortar of the masonry they showed no
+traces of rust, but the prolongations of the anchors in empty spaces
+were rusted to such an extent that they were only one-third of their
+original thickness.
+
+It has been repeatedly observed that iron does not rust in water in
+which are dissolved small quantities of caustic alkalies or alkaline
+earths, which neutralize every trace of acid. It seems that these
+experiences are the basis of A. Riegelmann's (Hanau) new protection
+against rust. The paint that he uses contains caustic alkaline earths
+(baryta, strontia, etc.), so that the iron is in a condition similar to
+the iron anchors of the chain bridges that were embedded in lime mortar.
+Although a paint is not thick enough to inclose so much alkali as the
+masonry did that the iron was embedded in, nevertheless the alkaline
+action will make itself felt as long as the coating has a certain
+consistence. Under all circumstances, however, these new paints will
+be free from active acids, which is more than can be said of our iron
+paints hitherto in use. Besides this, the rust protector has such
+a composition that it could serve its intended purpose without the
+addition of any alkali. If experience confirms this claim, it will be an
+interesting step forward in the preservation of iron, and contribute to
+an extension in the use of iron.--_Polytechn. Notizblatt_.
+
+       *       *       *       *       *
+
+[Illustration: SUGGESTIONS IN DECOTATIVE ART.--A CUPBOARD IN ITALIAN
+WALNUT WITH DARKER PANELING.--_From The Workshop_.]
+
+       *       *       *       *       *
+
+
+
+
+AN ELASTIC MASS FOR CONFECTIONERS' USE.
+
+
+It should be made in a well glazed earthen crock; metallic vessels are
+not good, as the gelatine burns too easily on the sides, and dries
+out where it gets too hot. Nor is a water bath to be recommended for
+dissolving the gelatine, for the sides get too hot and dry out the
+gelatine.
+
+A quart of water is put in the crock and heated to boiling; it is then
+taken off the open fire and two pounds of the finest gelatine stirred
+in, a little at a time. After the gelatine is completely dissolved there
+is to be added eight or ten pounds (according to the quality of the
+gelatine) of the finest white sirup previously warmed, and constantly
+stirred. The mass must not boil, as it would easily burn, or turn brown
+and acquire a bad color.
+
+Thirty or forty pounds of a beautiful white elastic mass can be made by
+this recipe in an hour at a cost of ten or twelve cents. Its chief use
+is for making figures and ornaments to put on bridal cakes and other
+fanciful productions of the confectioner. It contains no harmful
+ingredients and can be eaten without danger. If coloring is added,
+cochineal, plant green (chlorophyl), and turmeric are safer than aniline
+colors.
+
+       *       *       *       *       *
+
+
+
+
+CAOUTCHOUC.
+
+
+A. Levy contributes the following brief account of this subject to the
+_Moniteur Scientifique_:
+
+The crude gum cut in irregular strips is passed five or six times
+between two strong rolls sixteen inches in diameter, and making two
+or three revolutions per minute. These rolls are kept wet by water
+trickling on them. This broad strip of gum is perforated with foreign
+substances and looks like a sieve. It is next put in the cutting
+machine, a horizontal drum provided with an axle having knives on it. So
+much heat is produced by this cutting that the water would soon boil if
+it were not renewed. A second machine of this kind completes the cutting
+and subdividing, and expels the air and water from it. The mass is then
+pressed in round or quadrangular blocks.
+
+The vulcanization of thin articles from one twenty-fifth to
+one-sixteenth inch thick, is done by Parkes' patented process, that is,
+dipping it in carbon disulphide for a short time, to which chloride or
+bromide of sulphur has been added, and when the solvent has evaporated
+the sulphur remains behind. Balls, ornamental articles, and surgical
+apparatus are dipped into melted sulphur at 275� or 300� Fahr.
+
+The third most important process consists in mixing in the sulphur
+mechanically with the gum in the cutting machine.
+
+After the pieces have received the form they are to have they are heated
+with steam or hot air to 275�. Flat articles are vulcanized between
+press plates heated by steam. This vulcanization is said to have been
+discovered accidentally by searching different colored stuffs, some of
+which were dyed yellow with sulphur; the latter stood well.
+
+Hard rubber contains more sulphur, and is heated longer and higher.
+Small or fine tubes and hose are made by a continuous machine that
+presses it through a hole with a core to it. Large hose is made by
+wrapping strips around iron rods or tubes. The little air balloons
+are made in Paris (their value is $300,000) by Brissonet from English
+Mackintosh cloth. Powdered soapstone is strewed over it in cutting. The
+edges are united by hammering on a horn anvil, or by machinery through
+simple adhesion, and the cut surfaces are smooth.
+
+       *       *       *       *       *
+
+
+
+
+PHOTOGRAPHIC ACTION STUDIED SPECTROSCOPICALLY.
+
+
+At the last meeting of the Chemical Society Captain Abney gave a lecture
+on the above subject to a large audience. We may premise by saying that
+the demonstrations he gave were carried out principally by means of
+experiments on paper, to enable his hearers to understand the different
+points he wished to enforce. The lecture was commenced by insisting on
+the fact that all photographic action took place within the molecules of
+the compound acted upon and not on the molecule itself, and from this
+he deduced that the absorption of radiation which take place by such
+compounds is principally caused by the atoms composing the molecule.
+This was found to be the case in the organic liquids, which the lecturer
+to some extent had investigated, where he had further traced the
+absorption to the vibrating atoms of hydrogen in those bodies. In
+order to properly investigate the action of light it was necessary to
+ascertain which components of light in the spectrum were the chief
+agents in causing it, and this led him to consider the means to be
+employed to obtain a spectrum.
+
+The effects of diffraction gratings were first discussed, and in two
+which were shown it was found that in some spectra the visible portions
+were dimmed; in others the ultra-violet and the infra-red were almost
+entirely absent. It thus became necessary to investigate the condition
+of a grating before placing any confidence in the results obtained. This
+was the first pitfall into which an experimentalist was liable to fall.
+If prisms were used for obtaining the spectrum, then precautions had
+also to be taken, since all glass absorbed a portion of the ultra-violet
+rays and some the infra-red. On the whole, he considered that the best
+glass to use was pure white flint glass for the collimator, the prisms,
+and the camera lens. Another inquiry that was necessary was the
+source of radiation which it was proposed to use. Diagrams showed the
+unsatisfactory nature of solar radiation, and a photograph of the whole
+spectrum, taken with it under certain atmospheric conditions in which
+the effect of the green rays were almost _nil_, demonstrated the false
+conclusions that might be deduced as to the sensitiveness of any
+particular compound.
+
+Captain Abney also showed the satisfactory conditions which existed in
+using the crater of the positive pole of the electric arc light as a
+source, and by diagrams illustrated the inferiority of an incandescent
+light for the purpose, owing to the deficiency of violet and
+ultra-violet rays. Having thus settled the source of illumination and
+the kind of apparatus to employ, he next considered the conditions under
+which the sensitive salts were to be exposed. The action of ordinary
+sensitizers was explained and demonstrated by experiments, from which
+point the results of certain colored sensitizers were considered. Thus,
+various aniline dyes were proved to be bromine absorbents, and likewise,
+more or less, to be capable of being acted upon by light in those
+regions of the spectrum they absorbed. The result of the two effects was
+to produce a developable image of the spectrum just in those parts to
+which the salt of silver was sensitive, and also in the parts where the
+dye itself was acted upon. The latter effect was traced to the organic
+matter being oxidized in the presence of the sensitive silver salt.
+
+The sensitizing effect of one silver compound upon another was then gone
+into, and experiments and photographs showed where two salts of silver
+were in contact with one another, and without an energetic sensitizer
+being at hand, that the one when acted upon by light absorbed the
+halogen liberated from the other through the same cause and that a new
+molecule was formed. This was of importance, since in photographic
+spectroscopic researches a conclusion might be arrived at that a
+body suffered absorption in those regions of the spectrum where this
+interesting reaction took place, whereas in reality the phenomenon might
+be due to the silver salts employed. This was another pitfall for the
+unwary. Again, it became necessary in studying photographic action to
+make sure that the effect of radiation was only a reducing action, and
+that the results were not vitiated by some other action.
+
+The destruction by oxidizing agents of the effect produced by light was
+then experimentally demonstrated, and photographs of the spectrum showed
+that this effect was increased by the action of light itself. Thus, when
+immersing a plate sensitive to all radiations, visible and invisible,
+in a very dilute solution of nitric acid, bichromate of potash, or
+hydroxyl, it was shown that if the plate were exposed to light, first
+the parts acted upon by the red rays were reduced before the parts not
+acted upon at all by the spectrum, thus conclusively proving that light
+itself helped forward the oxidation or so-called solarization of the
+image. It thus became a struggle, under ordinary circumstances, between
+the reducing action on the normal salt and the oxidizing action on the
+altered salt as to which should gain the mastery. If the reducing action
+of any particular ray were the most active, then a negative image
+resulted, whereas if the oxidizing action were in the ascendant, a
+positive image resulted. Thus, in determining the action of light on
+a particular salt, this antagonism had to be taken into account, and
+exposure made with such precautions that no oxidizing action could
+occur, as would be the case if an inorganic sensitizer, such as sulphite
+of soda, were used.
+
+The reversal of the image by soluble haloid salts, such as bromide of
+potassium, was then dwelt upon with experimental demonstration. It was
+shown that the merest trace of soluble haloid would reverse an image
+by the extraction of bromine from it, and the fact that the most
+refrangible part of the spectrum was principally efficacious in
+completing this action showed how necessary it was to avoid falling
+into error when analyzing photographic action by the spectroscope. A
+reference was next made to gelatine plates, in which, owing to their
+preparation, reversal through the above cause was most likely to take
+place, and a plate soaked in sulphite of soda and exposed in the camera
+for a couple of minutes--a time largely in excess of that necessary to
+give a reversal under ordinary circumstances--proved the efficacy of
+the oxygen absorber, the image remaining in its normal condition after
+development.
+
+The lecturer closed his remarks by showing the different molecular
+states of iodide, bromide, and chloride of silver, as produced by
+different modes of preparation. The color of the film by transmitted
+light in every case indicated the effect which was likely to be produced
+on them, and the photographed spectrum in each of them showed the
+remarkable differences that were found. The points raised by Captain
+Abney at different times are well worthy the study of scientific
+photographers, since strict attention to the modes of exposure to the
+spectrum, to the instruments employed, and to the source of light used
+can alone insure accuracy in comparative experiments.--_Br. Jour. of
+Photo_.
+
+       *       *       *       *       *
+
+
+
+
+SALT AND LIME.
+
+
+M.F.K. communicates the following interesting circumstance to _Neueste
+Erfindung_.: A few years ago it was decided to whitewash the walls
+and ceiling of a small cellar to make it lighter. For this purpose a
+suitable quantity of lime was slaked. A workman who had to carry a
+vessel of common salt for some other purpose stumbled over the lime
+cask and spilled some of his salt into it. To conceal all traces of his
+mishap he stirred in the salt as quickly as possible. The circumstance
+came to my knowledge afterward, and this unintentional addition of salt
+to the lime excited my liveliest curiosity, for the whitewash was not
+only blameless, but hard as cement, and would not wash off.
+
+After this experience I employed a mixture of milk of lime and salt
+(about three parts of stone lime to one part of salt), for a court or
+light well. To save the trouble and expense of a scaffold to work on, I
+had it applied with a hand fire engine (garden syringe?) to the opposite
+walls. The results were most satisfactory. For four years the weather
+has had no effect upon it, and I have obtained a good and cheap means of
+lighting the court in this way.
+
+       *       *       *       *       *
+
+
+
+
+RENEWING PAINT WITHOUT BURNING.
+
+
+It is stated in the _Gewerbeblatte fur Hessen_ that paint can be renewed
+and refreshed in the following manner:
+
+When cracks and checks appear in the paint on wooden articles, this
+usually indicates that the varnish has cracked. If this is the case, the
+article can easily be prepared for a fresh coat by sponging it over with
+strong ammonia water, and two or three minutes later scraping off the
+varnish with the broad end of a spatula before the ammonia has dried up.
+
+In this way the first coat is removed. If it is necessary to remove the
+next coating, the same operation is repeated. After the last coat
+has been scraped off that is to be removed, it must be washed with
+sufficient water to render the ammonia inactive, and then the surface is
+rubbed with pulverized pumice to make it smooth. Any desired paint or
+varnish can be applied to a surface prepared in this way.
+
+       *       *       *       *       *
+
+
+
+
+TESTING OLIVE OIL.
+
+By DR. O. BACH.
+
+
+There is no department in analytical chemistry in which so little
+success has been attained as in the testing of commercial fats and oils.
+All methods that have been proposed for distinguishing and recognizing
+the separate oils, alone or mixed, bear upon them the stamp of
+uncertainty.
+
+The facts observed by J. Koenig, and described by him in his excellent
+book entitled "_Die Menschlichen Nahrungs und Genussmittel_" (p. 248),
+excited great expectations; viz., that the quantity of glycerine in
+vegetable fats was much less than the amount required to combine with
+all the fatty acids, and that the quantity of oleic acid in the oils
+that he examined exhibited essential differences. Koenig himself asserts
+that the fats have hitherto been too little investigated to found upon
+it a method for distinguishing them, but that nevertheless it may
+possibly do good service in some cases.
+
+My own estimation of the amount of glycerine in different olive oils, by
+Koenig's method, has shown, unfortunately, that the percentage may vary
+from 1.6 to 4.68, according to the origin and quality of the oil. In
+like manner the estimation of the oleic acid, which was conducted
+essentially in the manner proposed by Koenig, showed that the amount of
+oleic acid in different olive oils varied from 45 to 54 per cent. But
+since cotton seed oil, for example, which is most frequently used to
+adulterate olive oil, contains 5 per cent. of glycerine, and 59.5 per
+cent. of oleic acid, it is easy to see an admixture of cotton seed oil
+cannot be detected by this method, which appeared to be so exact.
+
+The method of analysis that I am about to describe is based chiefly upon
+the determination of the melting point of the fatty acids contained in
+the oils, and upon their solubility in a mixture of alcohol and acetic
+acid.
+
+The oils employed in adulterating olive oil, and to which regard must be
+had in testing it, are the following: Cotton seed oil, sesame, peanut,
+sun flower, rape, and castor oils. The tests for the two last named
+have hitherto never presented any difficulty, as rape seed is easily
+detected, owing to the sulphur in it, by saponifying it in a silver
+dish, and castor oil by its solubility in alcohol. But in recent times
+another product has come into the market called sulphur oil or pulpa
+oil, obtained by extracting the pressed olive cake with sulphide of
+carbon. This also gives a sulphur reaction when saponified, while it
+resembles castor oil by its solubility in alcohol. When this oil is
+mixed with ordinary olive oil, it can easily deceive any one who uses
+the ordinary tests.
+
+My method of testing olive oil is as follows:
+
+First, the so-called elaidine test is made, and then the test with
+nitric acid. About 5 c. c. (a teaspoonful) of the oil is mixed in a test
+tube with its own volume of nitric acid, spec. gr. 1.30, and shaken
+violently for one minute. At the expiration of this time the oils will
+have acquired the following colors: Olive oil, pale green; cotton seed
+oil, yellowish brown; sesame, white; sun flower, dirty white; peanut,
+rape, and castor oils, pale pink or rose.
+
+As soon as the color has been observed, the test glass is put in a water
+bath at the full boiling temperature and left there five minutes. It was
+found that the action of nitric acid upon cotton seed and sesame oil was
+the most violent, sometimes so violent as to throw the oil out of the
+glass. At the end of another five minutes after the test tube is taken
+out of the water bath, the following colors are seen: olive and rape
+oils are red; castor oil is golden yellow; sun flower oil, reddish
+yellow; sesame and peanut, brownish yellow; cotton seed, reddish brown.
+
+After standing 12 to 18 hours at about 60� Fahr. the olive, rape, and
+peanut oils will have solidified; sun flower, castor, and cotton seed
+will be like salve (sticky), while sesame will remain perfectly liquid.
+Mixtures of olive oil with small quantities of cotton seed or sesame are
+distinguished by this characteristic--that, although the whole mass,
+which is darker in color than olive oil, solidifies at first, at the end
+of 24 or 36 hours a brown oil will be found floating upon the surface of
+the solid mass, while the lower strata exhibit the yellow color of pure
+olive oil. Oil of rosemary has no effect when shaken with cold nitric
+acid, and imparts to it only a slightly darker color on heating. Oils
+treated with lye act just like pure oils.
+
+Far the purpose of determining the melting point of the fatty acids, 10
+grammes of oil were saponified with 5 grammes of caustic potash on the
+water bath; some water and alcohol being added. After all the alcohol
+had been expelled the soap was dissolved in hot water, and the fatty
+acids separated from the clear solution by adding hydrochloric acid.
+After prolonged heating these acids will swim on the salt solution as
+a perfectly clear oil, a portion of which is then put into a little,
+narrow, thin walled tube and allowed to solidify. The point at with it
+melts and solidifies is determined by putting this tube in a beaker
+glass filled with water and warming with a small flame. A thermometer
+is placed _in_ the fatty acids and moved gently about during the
+observation, and the point accurately observed at which the whole mass
+becomes perfectly clear, and also when the mercury bulb begins to be
+clouded. It was found that the acids from pure olive oil melt between
+26� and 28�� C. (= 80� to 83� Fahr.) and solidify at a point not lower
+than 22� C. (72� Fahr.). The melting point of the fatty acids in the
+oils used to adulterate olive oil differs considerably from this. The
+melting and solidifying points of the acids in cotton seed, sesame,
+and peanut oils lie considerably higher, those of sunflower, rape, and
+castor oils decidedly lower than those of olive oil.
+
+The melting and solidifying points of these acids are as follows:
+
+  Cotton seed melts at 38.0�C.  solidifies 35.0�C.
+  Sesame       do.     35.0 do.    do.     32.5 do.
+  Peanut       do.     33.0 do.    do.     31.0 do.
+  Sunflower    do.     23.0 do.    do.     17.0 do.
+  Rape         do.     20.7 do.    do.     15.0 do.
+  Castor oil   do.     13.0 do.    do.      2.0 do.
+
+The above figures differ so much from those of olive oil, that
+adulteratious carried to the extent that they are in trade can easily
+be detected by the aid of an estimation of the melting point, for a
+Gallipoli olive oil, mixed with 20 per cent. of sunflower oil, melted at
+24� C. and solidified at 18� C. (of course, the fatty acids are meant).
+A Nizza oil, mixed with 20 per cent. cotton seed oil, melted at 31�� C.
+and solidified at 28� C. A Gallipoli oil with 33-1/3 per cent. of rape
+oil melted at 23�� C. and solidified at 16�� C. When 0.50 per cent. of
+rape is added, it melts as low as 20� and solidifies at 13�� C., etc.
+
+In testing the solubility of the fatty acids in alcohol and acetic acid,
+I employ the method proposed by David (in _Comptes Rendus_, 1878, p.
+1416) for estimating stearic acid.
+
+It depends upon the principle that when acetic acid is poured drop by
+drop into an alcoholic solution of oleic acid, there comes a time when
+all the oleic acid separates, but stearic acid, which is insoluble in
+a mixture of alcohol and acetic acid, remains insoluble if the mixture
+contains oleic acid.
+
+The following manipulations are adopted in testing olive oil: Equal
+parts of glacial acetic acid and water are mixed in a bottle. Then 1
+c.c. of pure oleic acid, 3 c.c. of 95 per cent. alcohol, and 2 c.c.
+of acetic acid are put in a small tube graduated in tenths of cubic
+centimeters. The solution should remain clear; on adding another
+one-tenth c.c. of acetic acid it becomes turbid, and when 1 c.c. of
+oleic acid (or at first even more) floats on the mixture of acid and
+alcohol, the liquid is ready for use. If this is not the case, the
+proportions (of acetic acid and alcohol?) must be varied until the
+addition of one-tenth c.c. of the former will cause all the oleic
+acid to separate. The proportions having been ascertained from
+these preliminary experiments, the alcohol and acid are then mixed
+accordingly, e.g., 300 of alcohol to 225 of acid. One or two grammes
+of stearic acid are added to the alcoholic acetic acid, and the clear
+supernatant liquid used for the experiments.
+
+One cubic centimeter of the oil (acids) to be tested is put in the tube,
+and 15 c.c. of alcoholic acetic acid added, well shaken, and the whole
+left to stand quietly at 15� C. (60� Fahr). If the olive oil is pure,
+the acids dissolve to a clear solution that remains so. Cotton seed
+oil is insoluble, and the solution obtained by heating the solution
+solidifies at 60� Fahr. to a white jelly. Sesame and peanut oil react
+in a similar manner. Sunflower oil dissolves, but at 60� a granular
+precipitate falls. Rape oil is entirely insoluble and floats like oil on
+the surface. Castor oil on the contrary dissolves completely, just like
+olive oil, and hence cannot be detected therein by this method. To
+detect this oil we must take the melting point of the acids along with
+the solubility of the oil itself in alcohol.
+
+Olive oil when mixed with 25 per cent. of cotton seed oil yields a
+granular precipitate, and so does 25 per cent. of sesame. Smaller
+quantities cannot be detected by these methods. For rape oil the limit
+is 50 per cent., and in smaller quantities the oil does not collect on
+the alcoholic solution. The decided lowering of the melting point of
+the fatty acids in combination with the sulphur reaction, and the
+insolubility of the oil in alcohol, also furnish a method of detecting
+when present in smaller quantities in olive oil.
+
+Although I am well aware that I am making public a research that is by
+no means free from objections, I nevertheless believe that it may be of
+use to those who have to undertake the ticklish and intricate analyses
+of commercial fats.--_Translated from the Chemiker Zeitung_, p. 355.
+
+Leipsic, Jan., 1883.
+
+       *       *       *       *       *
+
+
+
+
+ON THE THEORY OF THE FORMATION OF COMPOUND ETHERS.
+
+
+In a note presented to the Industrial Society of Mulhouse, A. Pabst
+discusses the different stages in the formation of compound ethers, as
+Williamson has explained the production of ordinary ethers by the action
+of sulphuric acid upon alcohol. Pabst has observed that the compound
+ethers are formed in an analogous manner. If alcohol, sulphuric acid,
+and acetic acid are heated together, acetic ether, we know, is formed.
+
+Pabst has shown that it takes place in three stages. In the first stage,
+ethyl sulphuric acid and water are formed; in the second, acetate of
+ethyl with the reproduction of sulphuric acid, which again converts a
+fresh quantity of alcohol into ethyl sulphuric acid.
+
+  (1) C_{2}H_{5}OH+HO,SO_{2}OH = C_{2}H_{5}O,SO_{2}OH+H_{2}O.
+      (Alcohol.) (Sulphuric acid.) (Ethyl sulphuric acid.)
+
+  (2) C_{2}H_{5}O,SO_{2}OH+C_{2}H_{3}O,OH =
+     (Ethyl sulphuric acid.) (Acetic acid.)
+
+       C_{2}H_{5}O,C_{2}H_{3}O+HO,SO_{2}HO.
+       (Acetate of ethyl.) (Sulphuric acid.)
+
+Pabst proved this by letting methyl sulphuric acid act upon a mixture of
+acetic acid and ethyl alcohol. He obtained by this process acetate
+of methyl and ethyl sulphuric acid. By the continued action of ethyl
+alcohol and acetic acid upon this mixture, of course, acetate of ethyl
+was formed. At the conclusion of the operation there was no longer any
+methyl sulphuric acid present in the liquid.
+
+In the course of his investigations, Pabst was led to a very practical
+method for preparing acetate of methyl, which consists in heating ethyl
+sulphuric acid to 135� or 140� C, and allowing a mixture of equal
+molecules of strong alcohol and acetic acid to flow into it.
+
+The details of his experiments and the method of purification will be
+published by the society.
+
+       *       *       *       *       *
+
+
+
+
+A GREEN OR GOLDEN COLOR FOR ALL KINDS OF BRASS.
+
+By E. PULCHER.
+
+
+The French brass castings and articles of sheet brass are made of cheap,
+light colored brass, and possess a fine golden color which is not
+produced by gold varnish, but by a coating of copper. This gives them a
+finer appearance, so that they sell better.
+
+This golden color can be easily produced at very little expense and with
+but little trouble by the following process. Fifty grammes of caustic
+soda and 40 grammes of milk sugar are dissolved in a liter of water
+and boiled for a quarter of an hour. The solution is clear as water at
+first, but acquires a dark yellow color. The vessel is next taken
+from the fire, placed on a wooden support, and 40 grammes of a cold
+concentrated solution of blue vitriol stirred in. A red precipitate of
+suboxide of copper is at once formed, and by the time the mixture cools
+to 167� Fahr., the precipitate will have settled.
+
+A suitable wooden sieve is placed in the vessel, and on this the
+polished articles are laid. In about one minute the sieve is lifted up
+to see how far the operation has gone, and at the end of the second
+minute the golden color is dark enough.
+
+The sieve and articles are now taken out, and the latter are washed
+and then dried in sawdust. If the brass is left longer in the copper
+solution, in a short time a fine green luster is produced, becoming
+yellow at first and then bluish green. After it turns green, then the
+well-known iridescent colors finally appear. To obtain uniform colors
+it is necessary that they be produced slowly, which is attained at
+temperatures between 135� and 170� Fahr.
+
+The copper bath can be used repeatedly and can be kept a long time if
+bottled up tightly without change. After it is exhausted it can be
+renewed by adding 10 grammes of caustic soda, replacing the water that
+has evaporated, heating to boiling, and adding 25 grammes of a cold
+solution of blue vitriol.
+
+Similar operations with other well known reducing agents, such as
+tartrate of soda, glycerine, etc., do not give such good colors, because
+they do not precipitate the copper solution so rapidly and at so low a
+temperature.
+
+If the rinsed and pickled brasses are dipped for five minutes in a three
+per cent. neutral solution of cocoa nut oil soap, and then washed with
+water again before they dry, the coating gains in permanence.
+
+Brass articles that have to be cleaned frequently should be covered with
+oil of turpentine, or thin English copal varnish.--_Neueste Erfind_.
+
+       *       *       *       *       *
+
+
+
+
+VINEGAR.
+
+
+Hermann Kratzer, of Leipsic, communicates the following practical
+information on the clarification and purification of vinegar to the
+_Neueste Erfindungen und Erfahrungen_:
+
+If vinegar has an unpleasant odor, which is rarer now that the vinegar
+manufacture has reached such a state of perfection, it may be removed as
+follows: Well burned and finely pulverized wood charcoal is put into
+the bottles containing the vinegar, the proportions being 8 grammes of
+charcoal to a liter of vinegar, or one ounce to the gallon. It is shaken
+several times very thoroughly, then left standing three or four days,
+and the vinegar filtered through a linen cloth. Vinegar treated in this
+manner will be found to have completely lost its unpleasant odor.
+
+I have found that when I used blood charcoal or bone coal in place of
+wood coal it was still more efficient; but it must be mentioned that
+when they are used they must be purified as follows before using:
+Charcoal from blood contains potash and hence it is necessary to wash it
+with distilled water and dry it before using it. Bone coal (also called
+bone black, animal charcoal, etc.) contains on an average 10 per cent.
+of nitrogenous and hydrogenated carbon, 8 per cent. of carbonate of
+lime, 78 per cent. of phosphate of lime, besides phosphate of magnesia,
+sulphate of lime, soluble salts, etc. Before using, it should be treated
+with dilute hydrochloric acid until it does not effervesce any more. The
+bone coal is then left to stand for 24 or 30 hours and at the end of
+this time is washed with distilled water until the wash water no longer
+reddens a blue piece of litmus paper, i.e., until every trace of
+hydrochloric acid has been removed from the bone coal. Wood charcoal
+may be treated in like manner. When this coal is perfectly dry it is
+employed in the same proportions as the other, 8 to 1,000, the operation
+being exactly the same.
+
+He turns next to the clarification of the vinegar.
+
+It happens everywhere that vinegar instead of being clear is sometimes
+turbid. This is due to particles of yeast dissolved in the vinegar that
+have not yet settled. To remove this kind of turbidity it is customary
+to use oak or beech shavings that have been washed in hot water and then
+dried. These shavings, which must be very long and extremely thin, are
+put in a barrel with a second and perforated bottom, to a depth of 12
+to 34 inches. The vinegar that runs through them deposits its slimy
+constituents on the shavings and becomes perfectly clear, and presents
+to the eye a pleasing appearance.
+
+To this generally known method I would add a few more:
+
+1. I take a � kilo of well pulverized _animal charcoal_ (black burned
+bones) to 7/8 of a hectoliter of vinegar (1 lb. to 20 gallons), and stir
+it well with a wooden rod; or, if the vinegar is in bottles, I shake it
+a long time after putting the animal charcoal in the bottle, and repeat
+it several times. After three or four days I finally filter the vinegar
+through linen, when the filtrate will exhibit the desired clearness.
+
+2. The best way to clarify vinegar is with _isinglass_. It is first
+broken up, then swelled for a day in vinegar (17 or 18 grammes to the
+liter), then 2 liters of vinegar are added and the mass boiled until the
+isinglass is completely dissolved. Such a solution as this (� ounce to
+3 quarts) is mixed with 10� hectoliters (250 gallons) of turbid vinegar
+and well stirred through it. After the expiration of five or six weeks
+vinegar treated in this way has a beautifully clear appearance.
+
+3. _Albumen_ can likewise be used to clarify it. The vinegar is boiled
+with the albumen until the latter is completely coagulated, and then the
+vinegar is filtered.
+
+4. And finally _milk_ may be employed. For this purpose the milk is
+skimmed, and 1 quart of milk added for every 68 quarts of vinegar,
+the mixture well stirred and shaken. After the caseous portion has
+coagulated (curdled) it is filtered as before, and in this case, too,
+the product is a fine, clear vinegar.
+
+We believe that these few experiments, so easily performed, and at so
+small an expense, will prove useful to our readers in enabling them to
+put their product in the market in an excellent condition and nicely
+clarified.
+
+       *       *       *       *       *
+
+
+
+
+THE ALIZARINE INDUSTRY.
+
+
+At a recent meeting of the Manchester section of the Society of Chemical
+Industry, Mr. Ivan Levinstein described the history and progress of the
+manufacture of alizarine, from which are produced fast red, purple,
+brown, and black dyes. He said alizarine was, until very recently, made
+only from the root of the madder plant, of which the yearly crop was
+70,000 tons, and represented an annual value of �3,150,000, of which
+the United Kingdom consumed 23,000 tons, representing a value of nearly
+�1,000,000.
+
+Madder is now no longer grown for this purpose. The German chemists
+found that alizarine produced from madder in undergoing certain
+treatment gave a substance identical with anthracine, one of the
+constituents of coal tar, and in 1869 the same chemists announced to
+the world that they had accomplished the synthesis of alizarine from
+anthracine. The effect of this discovery was to throw madder out of
+cultivation.
+
+Mr. Perkin, an English chemist, and Messrs. Graebe and Liebermann,
+German chemists, almost simultaneously applied for patents in 1869,
+in England, and as their methods were nearly identical they arranged
+priorities by the exchanging of licenses. The German license became the
+property of the Badische Aniline Company, and the English license became
+the property of the predecessors of the North British Alizarine Company.
+These patents expire in about two months, and the lecturer explained
+that an attempt made by the German manufacturers to further monopolize
+this industry (even after the expiry of the patent) proved abortive. He
+also stated that alizarine, 20 per cent. quality, is sold to-day at 2s
+6d. per lb., but that if the price were reduced by one-half there will
+still be a handsome profit to makers, and that the United Kingdom is the
+largest consumer, absorbing one-third of the entire production, and that
+England possesses advantages over all other countries for manufacturing
+alizarine--first, by having a splendid supply of the raw material,
+anthracine; secondly, cheaper caustic soda in England than in Germany by
+fully �4 per ton; thirdly, cheaper fuel; fourthly, large consumption at
+our own doors; and, fifthly, special facilities for exporting.
+
+The advantages derived from the development of the alizarine manufacture
+here, it was stated, will benefit other collateral industries, such
+as manufacture of soda, of ordinary sulphuric acid, bichromatic, and
+chlorate of potash, articles used in this manufacture. The lecturer
+considered that the difficulties attending the manufacture of alizarine
+were now overcome, and with sufficient capital and competent chemists
+English manufacturers must be successful.
+
+He then proceeded to explain the source from which nearly all the
+artificial coloring matters are derived, viz., gas tar; showing the
+principal products of this wonderful, complex mixture, of which one
+is anthracine. Alizarine manufacturers originally found scarcity of
+anthracine; at present the supply is in excess of the demand, and the
+price during the last 18 months has fallen from 3s. 6d. to 1s. per unit,
+and the probabilities are that the supply will increase. The quantity of
+gas tar now obtained the lecturer estimated at 500,000 tons per annum,
+and the coal carbonized for gas making, 10,000,000 tons. This quantity
+of tar suffices to produce 9,000 tons of 20 per cent. alizarine.
+
+The lecturer then reviewed, in case of an increased demand for
+anthracine, the probable new sources of obtaining increased supplies of
+coal tar: (1) The destructive distillation of petroleum; (2) coke
+ovens and blast furnaces; (8) the carbonization of coal for general
+manufacturing purposes, using the coal and gas as fuel, and giving tar,
+benzine, and ammonia as residues; and (4) distillation of coal with the
+object of obtaining the principal products, tar and benzine, and as the
+residual product, gas. This part of the lecture was important to dyers
+and printers, the lecturer showing also, in a very interesting way,
+in what manner manufacturers may very considerably economize their
+consumption of coal.
+
+The lecturer explained that while from one ton of coal there was
+obtained on an average about 17 oz. of benzine, by the new method about
+thirty times that amount can be got from the same quantity of coal.
+He also considered in great detail the different processes of the
+carbonization of coal, and of increasing the production of the different
+important residual products of gas tar, and also the best method of
+extracting the benzine. He showed samples of benzine which he produced
+from gas obtained at the Rochdale Road Gasworks, and, further,
+nitro-benzine, aniline, and coloring matters, which he had made from
+this gas benzine.
+
+The lecturer also discussed the effect of the probable increased
+production of tar, ammonia, benzine, etc., as affecting gas companies,
+and said it was anticipated they either would raise the price of gas or
+change the present system of manufacture, which he considered probable.
+The enormous increase in the production of ammonia, of which the larger
+portion at present, as sulphate of ammonia, was used as a fertilizer,
+would no doubt considerably reduce its value. It might even replace soda
+for many purposes, and thus react on our alizarine industry.
+
+He then proceeded to consider the manufacture of alizarine purpurine,
+and divided its manufacture into four stages: 1, the purification of
+crude anthracine; 2, the conversion of the purified anthracine into
+anthraquinone; and 3, the production of sulpho acid of anthraquinone and
+the conversion of this sulpho-acid into alizarine and purpurine. This
+part of the lecture comprised a detailed explanation of the various
+kinds of apparatus required, to be used which were beautifully got up,
+complete working models having been prepared for the occasion. The
+lecturer was of opinion that large consumers would be benefited if
+makers would offer for sale only three distinct coloring matters--iso
+or anthrapurpurine, and flavo-purpurine, leaving it to the dyers and
+printers to produce for themselves the intermediate shades by mixing the
+three colors; and he showed that by reason of the fastness of the shades
+produced by these coloring agents varying considerably, the blue shade
+(alizarine) being much faster then the orange shade (flavo-purpurine),
+consumers were in many instances losers by using mixtures of alizarine
+and flavo-purpurine.
+
+In the course of the lecture many interesting specimens of various
+products were produced and dilated upon, the lecturer fully describing
+the process of purifying the crude anthracine and of the conversion of
+the purified anthracine into anthraquinone.
+
+       *       *       *       *       *
+
+
+
+
+THE PRESERVATION OF MEAT BY CARBONIC ACID.
+
+
+Since 1874, when Professor Kolbe, of Leipsic, first published his
+results on the antiseptic action of salicylic acid, he has made many
+efforts to apply this acid to the preservation of meat, but he has
+invariably found that after the lapse of a few days an unpleasant flavor
+has been developed, which is not that of putridity. If putrid changes be
+noticed, it is a sign that salicylic acid is in insufficient quantity,
+for where it has turned putrid the meat is found to be no longer acid,
+but alkaline. This leads to the assumption that meat is protected from
+change by acids, even by gases of that kind; and in fact it was noticed
+that beef--from 2 to 5 kilos. being taken--when placed in an earthen
+vessel and loosely covered with a wooden cover, was long preserved from
+putridity if the bottom of the vessel contained some hydrochloric acid,
+nitric acid, or aqueous sulphurous acid. The meat, however, no longer
+had the taste of fresh meat, but of such as had long lain in ice.
+Experiments were therefore made with carbonic acid, and these proved
+highly successful. The meat was placed in a cylinder of metal plate, and
+suspended from a rod which crossed the upper part and the lower part.
+A small tube serves to admit a current of carbonic acid from a Kipp's
+apparatus. The lid, which rested in a circular trough of glycerine,
+was traversed by a similar tube in its center, and both tubes could be
+closed with India-rubber tubing and screw taps as soon as sufficient
+carbonic acid gas had traversed the apparatus. At the end of seven,
+fourteen, and twenty-one days it was found that the meat was still quite
+good, and the soup prepared from it was in every respect excellent. At
+the end of the fourth or fifth week the meat thus preserved in the gas
+was still quite free from all putridity; but the broth prepared from it
+no longer tasted so well as fresh bouillon. The experiments were not
+extended over a longer time. Carbonic acid is thus shown to be an
+excellent means of preserving beef from putridity and of causing it to
+retain its good taste for several weeks. Mutton does not preserve so
+well. In eight days it had become putrid; and veal is by no means so
+well preserved as beef. The comportment of beef in an atmosphere of
+carbonic acid, to which carbonic oxide has been added, is curious. A
+number of cylinders were filled in the usual way with such a mixture and
+opened at the end of two or three weeks; in each case the flesh had the
+smell and taste of good, pure meat, but it was not of the gray color
+which meat preserved in carbonic acid gas gradually takes, but appeared
+in the interior, as well as on the outside, of a bright flesh-red color,
+and on the surface here and there, there were white round masses of
+fungoid growth of the size of a 20-pfenning piece, which were removed
+with the slightest rubbing. The flesh lying just below these was found
+to have the same bright red color as that already described. Meat which
+had been for three weeks in such a gas mixture gave a broth which,
+in good taste and freshness, could hardly be distinguished from
+freshly-made bouillon; and the boiled meats could not be distinguished
+either in appearance or taste. The property of carbonic acid to preserve
+meat suggests a use for the large supplies of this gas evolved from the
+earth in many localities. And it is as interesting to determine in
+how far the gas could be of service as an antiseptic during surgical
+operations.
+
+       *       *       *       *       *
+
+
+
+
+REDUCTION OF OXIDIZED IRON BY CARBONIC OXIDE.
+
+
+IT is well known that when the heat is sufficient, carbonic oxide
+reduces the oxide of iron to metal with the production of carbon dioxide
+(carbonic acid). On the other hand, at lower temperatures carbon dioxide
+oxidizes metallic iron, forming carbonic oxide. J. Lowthian Bell's
+celebrated researches (see SCIENTIFIC AMERICAN, p. 199, March 31, 1883)
+established the point of equilibrium where in the presence of both
+monoxide and dioxide the reducing action of the one just counterbalances
+the oxidizing action of the other.
+
+At the suggestion of Prof. R. Akermann, of Stockholm, C.G. S�rnstrom has
+conducted a similar series of forty-five experiments, the expense being
+borne by the Jernkontor. About 1 gramme of oxide of iron was placed in a
+porcelain boat, and slid in a porcelain tube 18 millimeters (� inch) in
+diameter and 635 millimeters long (25 inches). This was exposed to the
+action of a current of mixed carbon dioxide and monoxide made by heating
+oxalic acid and concentrated sulphuric acid. It was mixed with carbon
+dioxide as required, then analyzed, and preserved in gasometers holding
+66 liters. Before using, it is passed over phosphorus and chloride of
+calcium, and through sulphuric acid. The porcelain tube and boat were
+heated to from 300� to 600� C. (572� to 1,652� Fahr.) while the gases
+were passing, and then the state of oxidation determined. It was found
+that the larger the quantity of dioxide the higher the degree of
+oxidation, and the larger the proportion of monoxide the lower the
+degree of oxidation.
+
+The details of the experiment indicate that a saving of fuel in the
+blast furnace could best be accomplished by the use of a very hot blast,
+introducing some carbon monoxide into the blast, provided, of course,
+that this gas can be made outside of the blast furnace more cheaply than
+inside of it. Nevertheless, 643 lb. of carbon must be burned to
+every 1,000 lb. of iron reduced, if carbonic oxide is exclusively
+employed.--_Stahl und Eisen_.
+
+       *       *       *       *       *
+
+
+
+
+ON THE ADULTERATION OF SOAP.
+
+By Dr. H. BRACKEBUSCH.
+
+
+The importance of soap as an indispensable article in the household has
+not restrained the adulterators from making it a favorite object of
+their operations, and at the present day soap is only very rarely what
+it should be, the alkaline salt of a fatty acid with about 15 per cent.
+of water, which may be increased in case of soft soaps to 30 per cent.
+at most. The amount of moisture is an immediate signal for adulteration.
+Of all substances that can be used to adulterate soap, water is of
+course the cheapest, and as it is also harmless, this was the first
+point where manufacturers made use of their knowledge. The percentage of
+water was raised to 26 or 28 per cent., and now nearly all the ordinary
+soaps contain that amount when they leave the factory. At first the
+retailers objected to this method, because they had to suffer the loss
+so far as it dried out and lost weight in the store.
+
+The next point was to find some substance that would prevent this rapid
+drying, and it was very soon discovered that those soaps that contained
+an excess of lye retained moisture longer. Henceforth it was only
+necessary to use lyes of extra strength so as to obtain a large yield of
+soap containing an excess of water. The results of this ingenious method
+are before us; in the shops of the soap dealers the bars of soap become
+coated with a crust of white crystals, which is nothing but soda. If a
+few drops of corrosive sublimate be dropped on these crystals, a red
+spot will at once be produced by the formation of mercuric oxide. In
+addition to the deception of the public who buy such soaps, this alkali
+destroys clothes washed with it, as the fiber of the tissues is directly
+attacked by it, while the proper action of the soap depends on its
+enveloping the particles of dirt and carrying them off.
+
+Soap is subject to another kind of adulteration called filling, or
+weighting. Soapstone and similar mineral substances are added to the
+finished soap to increase its weight. But it may be added that this
+fraudulent weighting is rare. Large establishments cannot take the risk
+of being detected in such avaricious practices, and small ones scarcely
+have the apparatus at their disposal for making a uniform mixture which
+will not arouse suspicion.
+
+Now soaps are frequently found in the market that scarcely deserve this
+name. Mineral soap, cold water soap, etc., are the names inscribed on
+the placards behind which is buried a preparation consisting for the
+greater part of water-glass. The well-known water-glass is a silicate of
+soda or potash dissolved in free or caustic soda, or potash. There was
+a time when it excited great hopes, and its introduction into the
+household for washing was dreamed of, but it was soon found that
+its caustic properties made their appearance at a relatively low
+temperature. Hence we often find the notice, "TO BE USED COLD," printed
+in bold letters on the wrappers. This product is obtained by thickening
+water-glass with stearine, oleine, or any other easily saponifiable fat.
+As it takes but very little of the substances named to make an article
+closely resembling soap, of course the product is very cheap. There does
+not seem to be any limit to the amount of water in it; at least the
+author found in one kind of mineral soap from Berlin 58 per cent. of
+water. Water-glass soaps do not dissolve readily in water, they make but
+little suds, and render the skin hard and unpliable. Admitting that they
+are suitable for many purposes, nothing can be said against their sale
+so long as they appear under names which preclude their being confounded
+with other soaps. Nevertheless, there is always this danger--that
+water-glass may come into general use in making soap, and this is to be
+deplored. Water-glass soaps are easily recognized by their insolubility
+in moderately strong alcohol, the water-glass remaining behind in a
+gelatinous form.
+
+Great deception has been practiced under such names as "almond soap,"
+etc. Fortunately the difference between various kinds of fat are not
+very great from a chemical point of view, although it is always an
+unpleasant thought that the fat from animals that have died may return
+to the house in the form of soap. A white or yellow soap having a good
+smell is not made from bad fat, and hence is more appetizing.
+
+A method formerly much in use consisted in mixing green soap with starch
+paste, a mixture that could not be detected by the naked eye, especially
+if colored with caramel. On attempting to dissolve it in ordinary
+burning alcohol, a white coagulum forms.
+
+From the foregoing it is sufficiently evident that those who buy soap
+to sell again have every reason to keep a sharp lookout on those who
+furnish them with soap.--_Polyt. Notiz._
+
+       *       *       *       *       *
+
+
+
+
+BOVINE AND HUMAN MILK: THE DIFFERENCE IN ITS ACTION AND COMPOSITION.
+
+By C. HUSSON.
+
+
+M. Meynet, in a remarkable report upon condensed milk, has raised a
+question which it is important to have solved in the interests of
+infants. This is my excuse for presenting to the French Society of
+Hygiene certain observations on this subject.
+
+Is woman's milk richer in fatty matters and sugar in proportion to the
+caseine than that of the cow? Is the affirmative, sustained by a large
+number of chemists, a mistake that ought to be corrected?
+
+Such is the question that needs to be answered.
+
+In my last work on milk, my aim was to report new experiments, and hence
+I gave only the analysis of M. Colawell. By the side of the essays of
+MM. Doy�re, Millon, Commaille, and Wurtz, I put those of Liebig, and
+quoted an interesting chapter written on this question by M. Caulier,
+in Dechambre's Encyclopedic Dictionary. These are the authorities upon
+which to base any opposition to the analyses of Boussingault, Regnault,
+Littre, and Simon, savants of no less renown.
+
+The differences are easily explained.
+
+Woman's milk is rarely to be had in sufficient abundance to make a
+complete analysis of it. In the country especially a few precious drops,
+obtained with difficulty, are carried off in a thimble to be placed
+under a microscope, where the number of fat globules are counted, and it
+is examined to see if they are not mixed with globules of colostrum.
+
+It will be necessary at the outset to know whether the analyses given
+refer to milk drawn from the breast before nursing, or at the end. In
+the former case there will be an excess of caseine, in the second an
+excess of fat present. This is the reason that in nursing infants the
+intervals should not be too long, or the child will not be able to empty
+the breast completely, and it will obtain a milk too rich in caseine,
+too poor in butter, and one that it cannot digest.
+
+This is the first proof of the importance of fatty matters for the
+alimentation of babes.
+
+Let us turn to the second.
+
+At birth, when the milk is still in a state of colostrum, the fluid
+contains a variable quantity of albumen coagulable by heat, much less
+caseine, and an excess of butter and sugar.
+
+Cow's milk, immediately after calving, contains more butter and less
+caseine than milk produced some time later, when the specific character
+of ruminants begins to appear in the calf, that is to say, when it
+commences to graze the milk coagulates in the stomach. As in other
+mammals, an excess of fat helps digestion by subdividing the caseine and
+emulsifying it. But the milk of an animal recently calved is reserved
+for its young, and it is not until the time of weaning that the lacteal
+fluid is offered for human consumption.
+
+Thus it is that the nursling of a day receives milk many months old and
+heavily loaded with caseine. This milk it cannot digest because the
+emulsifying element, the fat, is not present in it in sufficient
+quantity in proportion to the coagulable matter. We must not forget
+either that the difference in coagulation holds also with respect to
+difference in the age and in the kind of animal. Just so the rennet of a
+sucking calf has a greater power of coagulating cow's milk than that of
+a sheep, and _vice versa_.
+
+"Clinical observation," says Dr. Condereau, "shows that all young
+infants digest human milk very easily and cow's milk very imperfectly.
+When it is fed on the latter, in the excreta will be found numerous
+fragments, sometimes very bulky, of undigested caseine. In most cases
+this caseine suffers more or less decomposition in the alimentary
+canal, which gives to the feces a tainted odor recalling that of putrid
+Roquefort cheese.
+
+"The excrement vary in appearance as much as they do in odor. Frequently
+the caseous clots are not to be seen, and the stool has a clammy look
+reminding one of glazier's putty, while the color varies from dirty
+white to pale grayish yellow. That is due to the fact that the
+composition of the milk from different animals is far from being
+constant.
+
+"The proportions of albumen to those of caseine are especially varied.
+For woman's milk the proportions are as 100 to 122.72. In goat's milk
+the proportions are 100 to 173.09. In cow's milk it is as 100 to 289.20.
+
+"The conclusion is this: Caseine is not a food at all for the new born
+during a space of time, the duration of which is to be determined
+experimentally.
+
+"This substance is a harmful burden that interferes with the regular
+action of the digestive organs. It is a premature food, and the more
+abundant the more injurious.
+
+"Albumen on the contrary remains fluid in the presence of the gastric
+juice; it is separated from the other aliments by coagulation of the
+caseine. It is absorbed entire either in its natural state or in form of
+peptone."
+
+According to clinical observation, it is still the fats that give to
+milk its hygienic value, and the excess of caseine is an obstacle to its
+digestion.
+
+However, if cow's milk is not easily digested by children, experience
+proves that there are other kinds of milk, from other animals, which
+young stomachs are able to bear more easily. There are many proofs of
+this fact.
+
+M. Tarnier, speaking before the Academy of Medicine on the artificial
+nourishment of the new born, reports that the milk of cows and goats,
+pure or diluted in different ways, that of condensed milk and Biedert's
+cream, have always given disastrous results at the Maternite in Paris,
+but that the mortality of the new born was considerably reduced from the
+day when ass's milk was introduced as food.
+
+Ass's milk was given pure for six weeks or two months; then cow's milk
+diluted with one-half water until six months old, followed by pure cow's
+milk. This is the most rational course of artificial feeding.
+
+Prof. Parrot reports analogous results obtained at the nursery opened at
+the Hospice des Enfants Assistes. By the aid of ass's milk he saved a
+number of the little syphilitics.
+
+The following are the numerical results: 86 infants with hereditary
+taint of syphilis have been at the nursery. Of 6 fed exclusively on
+cow's milk, only 1 survived and the other 5 died. Forty-two were suckled
+by goats, of which 8 lived, 34 are dead, which is equal to a mortality
+of 80.9 per cent. Thirty-eight were suckled by an ass, of which 28 lived
+and 10 died; a mortality of 26.3 per cent.
+
+Certainly these figures prove eloquently enough what chemical analysis
+shows, that ass's milk, being better borne by the infant's stomach,
+ought to have a composition resembling that of woman's milk. This
+analogy is not found to consist in the quantity of fat, but in the small
+amounts of dry residue (total solids) and of caseine.
+
+Let us now examine the objections raised by M. Meynet.
+
+Food has a considerable influence upon the composition of milk; this
+fact, stated by M. Riche in his treatise on chemistry, seem to be
+accepted by all.
+
+The milk of carnivor� is excessively rich in caseine; that of herbivor�
+much less.
+
+The food of woman, who enjoys a mixed alimentation, ought to have a
+composition intermediate between these two, and consequently ought to
+contain more caseine than that of the plant eaters. This is the logical
+deduction.
+
+At first this reasoning misleads one, but numerous objections present
+themselves.
+
+The food, no doubt, has some influence upon the composition of the milk
+of animals of the same species, but every animal can secrete something
+independent of any food, just as one kind secretes musk, another
+castor, etc. Yet it would not be an anomaly if an excess of caseine
+in proportion to the other substances was a true characteristic of
+ruminants.
+
+But we admit that the milk of all mammals ought to have identically the
+same composition if their food suffered no modifications.
+
+What is the food of ruminants? Without doubt it is essentially
+vegetable, and the plants of the field constitute the element par
+excellence of their nurture. These plants contain a large excess of
+carbohydrates in proportion to the nitrogenous.
+
+But what are these other substances? What role do they play in
+digestion?
+
+They are composed in great part of fibers and cells that suffer no
+change in the animal economy, and which are not acted upon by the
+gastric juice, as proved by their occurrence in excreta. The carbon is
+found almost unchanged, so that the excrements of herbivoi�, when dried,
+form a valuable fuel. Ruminants are compelled, in order to obtain
+nourishment from the plants that they eat, to extract their juices by
+repeated pressure (as in chewing the cud); and what do these soluble
+juices contain? Some saccharine substances, a little fat, but mostly
+albumen and vegetable caseine, that is to say, the substance which
+predominates in their lacteal secretions.
+
+What, on the contrary, is the food of woman?
+
+No doubt she gains much strength from the lean, muscular flesh that she
+eats, but besides this she has butter, oil, fats of all kinds, sugar,
+starches, and alcoholic beverages, all of which are favorable to the
+production of butter in the milk. Hence, aside from her physical
+constitution, the food of woman alone explains the relative excess of
+non-nitrogeneous substances.
+
+Nitrogenous articles of food are expensive, while the other forms of
+nutriment are to be had in the form of potatoes, beans, and bread,
+products sold at a reasonable price. Yet logic demands that there shall
+be an excess of butter in proportion to caseine in the milk.
+
+The discrepancies in analyses of woman's milk are easily explained by
+the mobile and impressible character of woman.
+
+If bad treatment and bee stings are able to modify the composition of
+cow's milk, how much more ought the emotions of all sorts, which disturb
+the heart and head of woman, to change the composition of her milk?
+
+But if new analyses seem to be needed, they ought to be made. This
+question is too important to rest in suspense. The mean composition
+of human milk for the first two months after delivery ought to be
+established. In chemistry, as in mathematics, figures alone are
+convincing. But from what has been said it is logical to conclude that
+an excess of caseine in milk is unfavorable to good digestion, while
+an excess of butter is favorable to it.--_Translated from Journal
+d'Hygiene, March 1, 1883_.
+
+       *       *       *       *       *
+
+
+
+
+CEREAL FOODS IN THEIR RELATION TO HEALTH AND DISEASE.
+
+By F.R. CAMPBELL, A.B., M.D.
+
+
+The cereals are subject to many diseases which retard their development,
+rendering them unfit for food, and even poisonous. The relation of
+unwholesome foods to the diseases of the animal body are now being
+thoroughly studied, recent advances in chemistry and microscopy
+contributing valuable aid to the prosecution of such investigations.
+Some enthusiastic advocates of the germ theory of disease believe that
+many, if not all, the so-called disease germs may be transplanted into
+the human system with the food ingested. But whatever may be the real
+truth in regard to this subject, it has been positively demonstrated
+that many diseases of the human body may be produced by unwholesome
+food. The specific symptoms produced in man by the various grain
+diseases are not accurately known, consequently our remarks upon this
+subject must be of a very general character.
+
+Pappenheim divides the diseases of the cereals into two classes,
+internal and external. The internal diseases are those depending upon
+conditions of soil, climate, cultivation, etc., and may be neglected in
+our discussion, as they produce no special disease of the body, only
+impairing the nutritive value of the grain.
+
+The external diseases are of much greater importance, as they probably
+produce some of the most fatal maladies to which the human race is
+subject. These external diseases of the cereals are due to parasites,
+which may be either of an animal or vegetable nature. Among the animal
+parasites may be mentioned the _weevil, vibrio tritici_, which feeds
+upon the starch cells of the grain. Grain attacked by this parasite was
+at one time supposed to be injurious to health.
+
+In 1844 the French Commission appointed to examine grain condemned a
+large quantity imported with this parasite, but afterward reconsidered
+their decision and permitted its sale, concluding that it was deficient
+in nutritive properties, but not otherwise unwholesome. Rust is the most
+common disease of the cereals, produced by vegetable parasites. Like
+the other diseases of this class, it is most prevalent in warm, damp
+seasons.
+
+Prof. Hensboro is of the opinion that rust is but an earlier stage of
+mildew or blight, the one form of parasite being capable of development
+into the other, and the fructification characteristic of the two
+supposed genera having been evolved on one and the same individual.
+
+Blight is a term loosely applied to a number of parasitic diseases.
+In it are included mildew, cories, and even rust and smut. The fungi
+producing these diseases attack the plant and seed at various stages of
+its growth. The whole kernel is affected, and not merely the external
+coat, as is sometimes maintained. When blighted grain is sown, the
+disease recurs the following year, often making it necessary to import
+new seed before the disease can be eradicated. Various remedies have
+been used to destroy the spores of these fungi, but all are uncertain
+and some are dangerous to health. Special machinery and methods have
+been employed in the mills to separate the mildew from the grain. Some
+of these succeed in removing the fungi and discoloration from the
+surface of the grain, but have no effects upon the parts within.
+Blighted grain is soft, and has an unpleasant taste and smell, and bread
+made of it is liable to be heavy and sodden.
+
+It is undeniable that the use of blighted grain as food is exceeding
+dangerous to health. It is a well known fact that vegetable parasites
+may attack animals; the silk worm disease produced by the _Botrytis
+baniana_, being an example. It is stated that the same vegetable
+parasites which produce plant diseases, when transmitted to the animal
+body produce special affections, the form and appearance of the germs
+being altered by their environments. The same germs developed under
+different conditions of temperature and surrounding medium, assume forms
+so various that they have been supposed to belong to different species
+and even different genera. If there is any truth, then, in the germ
+theory of disease, it is not so very improbable that a fungus which
+will produce blight in grain may cause cholera or tetanoid fever in an
+animal.
+
+Hallier, the famous physiological botanist, observed in 1867 that there
+was a peculiar disease of the rice plant associated with an epidemic of
+cholera. Rice plants fertilized with the discharges of cholera patients
+were affected with blight. A concentrated infusion of the blighted grain
+would produce changes in all animal substances, blood and albumen being
+converted into thin odorless products resembling in every respect the
+material found in the kidneys of cholera patients.
+
+The most formidable of the diseases attributed to the use of diseased
+grain is cerebro-spinal meningitis, commonly known as spotted or blanoid
+fever. The disease is rare in England, but is frequently epidemic in the
+United States, in Ireland, and on the Continent. In 1873, in the State
+of Massachusetts alone, 747 persons died of it, and other epidemics even
+more fatal have lately occurred in New York and Michigan. The disease is
+a nervous fever attended with convulsions, the pathological lesion being
+congestion and inflammation of the membrane of the spinal cord and
+brain. Dr. Richardson in writing on the nature and causes of spotted
+fever concludes that it is due to the use of diseased vegetable
+substances, especially grain, and from a careful analysis of the
+statistics of this disease reported by the Michigan State Board of
+Health considers it demonstrated that "under favoring condition for its
+action diseased grain received as a food is the primary cause of the
+phenomena which characterize the disease." These views are substantiated
+by the experiments of Dr. H. Day, who found that by feeding rabbits on
+unsound grain, spasmodic affections were produced, due to inflammation
+of the membranes of the spinal cord and brain.
+
+In warm climates, pellagra or Italian leprosy is said to be produced by
+eating diseased maize, which forms the principal article of food among
+the poorer classes of the rural districts. Pellagra is epidemic in
+northern Italy and the south of France. The disease is manifested by a
+redness and discoloration of the exposed parts of the body. It is most
+active during the hot weather, the inflammation subsiding in the winter,
+leaving a pigmentation of the skin. Each year the symptoms become more
+alarming, nervous disorders finally setting in, and a large number die
+insane. The disease is most prevalent in the country. In the towns,
+where maize is supplemented by other articles of food, it does not
+exist.
+
+Ergot is a very common disease of the cereals. The fungus producing it
+was discovered in 1853, but for centuries previous its injurious effects
+upon the human body were recognized, and it was observed that ergot of
+rye was the most poisonous. Taken in large doses, ergot will produce
+nausea, vomiting, diarrhoea, headache, and weakness of the heart. In
+small repeated doses it will produce contraction of all the unstriped
+muscles, as those of the blood vessels, the womb, and intestines.
+Ergotium is the name given to the disease produced by the continued use
+of grain affected by this fungus. Aitken describes it as "a train of
+morbid symptoms produced by the slow and cumulative action of a specific
+poison peculiar to wheat and rye, which produces convulsions, gangrene
+of the extremities, and death. In countries where rye bread is much used
+ergotium is sometimes epidemic. This was a frequent calamity before
+the introduction of suitable purifiers into the mills. There are two
+varieties of the disease, the convulsive and the gangrenous. The
+convulsive form begins with tingling of the extremities, drowsiness, and
+headache, followed by pain in the joints, violent muscular contractions,
+and death. The gangrenous variety begins with coldness and weakness
+of the extremities followed by gangrene and sloughing. This form is
+somewhat more fatal than the convulsive, the mortality of those affected
+being about 90 per cent.
+
+Mouldy grain and bread have also caused poisoning. Prof. Varnell states
+that "six horses died in three days from eating mouldy oats. There was a
+large amount of matted mycelium, and this when given to other horses for
+experiment, killed them within thirty-six hours." The writer has himself
+seen seven hogs die within a few days while being fed on mouldy corn.
+Flour which has become stale may produce similar injurious effects,
+although most of the germs are destroyed in the process of baking. It is
+quite probable, however, that a poisonous substance is generated by the
+mould fungus, which cannot be destroyed in this way.--_Milling World_.
+
+       *       *       *       *       *
+
+
+
+
+MOIST AIR IN LIVING ROOMS.
+
+
+The injurious effect of dry heat in inhabited rooms is quite generally
+known, and different methods have been suggested for moistening the
+air. To test the effectiveness of these methods, J. Melikow, of St.
+Petersburg, has estimated the quantity of moisture in the air of
+different rooms by means of August's psychrometer, and also tested
+the different methods of increasing the moisture. He arrived at the
+following results, which are of decided practical value:
+
+1. When large and small open vessels filled with water are placed in the
+room, they do not increase the moisture of the air at all.
+
+2. Tubs of water of the same temperature as the room and parlor
+fountains have very little effect.
+
+3. When hot air is used, open vessels of water placed over the pipes
+have no effect at all.
+
+4. Wolpert's revolving wheel increases the moisture but slightly.
+
+5. The Russian tea machine and the steam pulverizer (atomizer) are
+effective but only for a short time.
+
+6. Wet hand towels suspended in a room are insufficient.
+
+7. Of all the methods tested, the most efficient seemed to be to hang up
+a number of wet cloths on a winch or some contrivance that permits
+of turning them, so as to hasten their giving out moisture to the
+air.--_Med. Zeitung_.
+
+       *       *       *       *       *
+
+[The following article is from the June number of the _American
+Naturalist_, edited by Prof. A. S. Packard, Jr., and Prof. E. D. Cope.
+Published by McCalla & Stavely, Philadelphia, Pa.]
+
+
+
+
+THE DEVELOPMENTAL SIGNIFICANCE OF HUMAN PHYSIOGNOMY.
+
+[Footnote: Abstract of a lecture delivered before the Franklin Institute
+of Philadelphia, Jan. 20.1881, in exposition of principles laid down in
+The Hypothesis of Evolution, New Haven, 1870, p. 31.]
+
+By E. D. COPE.
+
+
+The ability to read character in the form of the human face and figure
+is a gift possessed by comparatively few persons, although most
+people interpret, more or less correctly, the salient points of human
+expression. The transient appearances of the face reveal temporary
+phases of feeling which are common to all men; but the constant
+qualities of the mind should be expressed, if at all, in the permanent
+forms of the executive instrument of the mind, the body. To detect the
+peculiarities of the mind by external marks has been the aim of the
+physiognomist of all times; but it is only in the light of modern
+evolutionary science that much progress in this direction can be made.
+The mind, as a function of part of the body, partakes of its perfections
+and its defects, and exhibits parallel types of development. Every
+peculiarity of the body has probably some corresponding significance in
+the mind; and the causes of the former are the remoter causes of the
+latter. Hence, before a true physiognomy can be attempted, the origin
+of the features of the face and general form must be known. Not that
+a perfect physiognomy will ever be possible. A mental constitution so
+complex as that of man cannot be expected to exhibit more than its
+leading features in the body; but these include, after all, most of what
+it is important for us to be able to read, from a practical point of
+view.
+
+[Illustration: FIG. 1.--Section of skull of adult orang-outang _(Simia
+satyrus)_. FIG. 2.--Section of skull of young orang, showing relatively
+shorter jaws and more prominent cerebral region.]
+
+The present essay will consider the probable origin of the structural
+points which constitute the permanent expression. These may be divided
+into three heads, viz.:
+
+1. Those of the general form or figure.
+
+2. Those of the surface or integument of the body, with its appendages.
+
+3. Those of the forms of the head and face.
+
+[Illustration: FIG. 3.--Figure of infant at birth; _a_, front of face.
+(The eye is too far posterior in this figure.)]
+
+The principal points to be considered under each of these heads are the
+following:
+
+
+I. THE GENERAL FORM.
+
+1. The size of the head.
+
+2. The squareness or slope of the shoulders.
+
+3. The length of the arms.
+
+4. The constriction of the waist.
+
+5. The width of the hips.
+
+6. The length of the leg, principally of the thigh.
+
+7. The sizes of the hands and feet.
+
+8. The relative sizes of the muscles.
+
+[Illustration: FIG. 4.--Portrait of a girl at five years of age.]
+
+
+II. THE SURFACES.
+
+9. The structure of the hair (whether curled or not).
+
+10. The length and position of the hair.
+
+11. The size and shape of the nails.
+
+12. The smoothness of the skin.
+
+13. The color of the skin, hair, and irides.
+
+[Illustration: FIG. 5.--Portrait of the same at seventeen years, showing
+the elongation of the facial region, and less protuberance of the
+cerebral.]
+
+
+III. THE HEAD AND FACE.
+
+14. The relative size of the cerebral to the facial regions.
+
+15. The prominence of the forehead.
+
+16. The prominence of the superciliary (eyebrow) ridges.
+
+17. The prominence of the alveolar borders (jaws).
+
+18. The prominence and width of the chin.
+
+19. The relation of length to width of skull.
+
+20. The prominence of the malar (cheek) bones.
+
+21. The form of the nose.
+
+22. The relative size of the orbits and eyes.
+
+23. The size of the mouth and lips.
+
+[Illustration: FIG. 6.--Profile of a Luchatze negro woman, showing
+deficient bridge of nose and chin, and elongate facial region and
+prognathism.]
+
+The significance of these, as of the more important structural
+characters of man and the lower animals, must be considered from two
+standpoints, the paleontological and the embryological. The immediate
+paleontological history of man is unknown, but may be easily inferred
+from the characteristics displayed by his nearest relatives of the order
+Quadrumana. If we compare these animals with man, we find the following
+general differences. The numbers correspond to those of the list above
+given:
+
+I. _As to General Form_.--(3) In the apes the arms are longer; (8) the
+extensor muscles of the leg are smaller.
+
+II. _As to Surface_.--(9) The body is covered with hair which is not
+crisp or woolly; (10) the hair of the head is short; (18) the color of
+the skin, etc., is dark.
+
+III. _As to Head and Face_.--(14) The facial region of the skull is
+large as compared with the cerebral; (15) the forehead is not prominent,
+and is generally retreating; (16) the superciliary ridges are more
+prominent; (17) the edges of the jaws are more prominent; (18) the chin
+is less prominent; (20) the cheek bones are more prominent; (21) the
+nose is without bridge, and with short and flat cartilages; (22) the
+orbits and eyes are smaller (except in Nyctipithecus); (24) the mouth is
+small and the lips are thin.
+
+[Illustration: FIG. 7.--Face of another negro, showing flat nose, less
+prognathism and larger cerebral region. From Serpa Pinto.]
+
+It is evident that the possession of any one of the above
+characteristics by a man approximates him more to the monkeys, so far
+as it goes. He retains features which have been obliterated in other
+persons in the process of evolution.
+
+[Illustration: FIG.8.--Portrait of Satanta, a late chief of the Kiowas
+(from the Red river of Texas), from a photograph. The predominance of
+the facial region, and especially of the malar bones, and the absence of
+beard, are noteworthy.]
+
+In considering the physiognomy of man from an embryological standpoint,
+we must consider the peculiarities of the infant at birth. The numbers
+of the following list correspond with those already used (Fig. 3).
+
+I. _As to the General Form_.--(1) The head of the infant is relatively
+much larger than in the adult; (3) the arms are relatively longer;
+(4) there is no waist; (6) the leg, and especially the thigh, is much
+shorter.
+
+II. _As to the Surfaces_.--(10) The body is covered with fine hair, and
+that of the head is short.
+
+III. _The Head and Face_.--(14) The cerebral part of the skull greatly
+predominates over the facial; (16) the superciliary ridges are not
+developed; (17) the alveolar borders are not prominent; (20) the malar
+bones are not prominent; (21) the nose is without bridge and the
+cartilages are flat and generally short; (22) the eyes are larger.
+
+[Illustration: FIG. 9.--Australian native (from Brough Smyth), showing
+small development of muscles of legs and prognathism.]
+
+It is evident that persons who present any of the characters cited in
+the above list are more infantile or embryonic in those respects than
+are others; and that those who lack them have left them behind in
+reaching maturity.
+
+We have now two sets of characters in which men may differ from each
+other. In the one set the characters are those of monkeys, in the other
+they are those of infants. Let us see whether there be any identities in
+the two lists, i. e., whether there be any of the monkey-like characters
+which are also infantile. We find the following to be such:
+
+I. _As to General Form_.--(3) The arms are longer.
+
+II. _Surface_.--(10) The hair of the head is short, and the hair on the
+body is more distributed.
+
+III. _As to Head and Face_.--(21) The nose is without bridge and the
+cartilages are short and flat.
+
+Three characters only out of twenty-three. On the other hand, the
+following characters of monkey-like significance are the opposites of
+those included in the embryonic list: (14) The facial region of the
+skull is large as compared with the cerebral; (15) the forehead is not
+prominent; (16) the superciliary ridges are more prominent; (17) the
+edges of the jaws are more prominent. Four characters, all of the face
+and head. It is thus evident that in attaining maturity man resembles
+more and more the apes in some important parts of his facial expression.
+
+[Illustration: Esequibo Indian woman, showing the following
+peculiarities: deficient bridge of nose, prognathism, no waist, and
+(the right hand figure) deficiency of stature through short femur. From
+photographs by Endlich.]
+
+It must be noted here that the difference between the young and
+embryonic monkeys and the adults is quite the same as those just
+mentioned as distinguishing the young from the adult of man (Figs. 1 and
+2). The change, however, in the case of the monkeys is greater than
+in the case of man. That is, in the monkeys the jaws and superciliary
+ridges become still more prominent than in man. As these characters
+result from a fuller course of growth from the infant, it is evident
+that in these respects the apes are more fully developed than man.
+Man stops short in the development of the face, and is in so far more
+embryonic.[1] The prominent forehead and reduced jaws of man are
+characters of "retardation." The characters of the prominent nose with
+its elevated bridge, is a result of "acceleration," since it is a
+superaddition to the quadrumanous type from both the standpoints of
+paleontology and embryology.[2] The development of the bridge of the
+nose is no doubt directly connected with the development of the front of
+the cerebral part of the skull and ethmoid bone, which sooner or later
+carries the nasal bones with it.
+
+[Footnote 1: This fact has been well stated by C. S. Minot in the
+_Naturalist_ for 1882, p. 511.]
+
+[Footnote 2: See Cope, The Hypothesis of Evolution, New Haven, 1870, p.
+31.]
+
+[Illustration: The Venus of the Capitol (Rome). The form and face
+present the characteristic peculiarities of the female of the
+Indo-European race.]
+
+If we now examine the leading characters of the physiognomy of three
+of the principal human sub-species, the Negro, the Mongolian, and the
+Indo-European, we can readily observe that it is in the two first named
+that there is a predominance of the quadrumanous features which are
+retarded in man; and that the embryonic characters which predominate are
+those in which man is accelerated. In race description the prominence
+of the edges of the jaws is called prognathism, and its absence
+orthognathism. The significance of the two lower race characters as
+compared with those of the Indo-European is as follows:
+
+_Negro_.--Hair crisp (a special character), short (quadrum. accel.);
+prognathous (quadrum. accel.); nose flat, without bridge (quadrum.
+retard)[1]; malar bones prominent (quadrum. accel.); beard short
+(quadrum. retard.); arms longer (quadrum. accel.); extensor muscles of
+legs small (quadrum. retard.).
+
+[Footnote 1: In the Bochimans, the flat nasal bones are co-ossified with
+the adjacent elements as in the apes (Thuli�).]
+
+_Mongolian_.--Hair straight, long (accel.); jaws prognathous (quadrum.
+accel.); nose flat or prominent with or without bridge; malar bones
+prominent (quadrum. accel.); beard none (embryonic); arms shorter
+(retard.); extensor muscles of leg smaller (quad. retard.).
+
+_Indo-European_.--Hair long (accel.); jaws orthognathous (embryonic
+retard.); nose (generally) prominent with bridge (accel.); malar bones
+reduced (retard.); beard long (accel.); arms shorter (retard.); extensor
+muscles of the leg large (accel.).
+
+The Indo-European race is then the highest by virtue of the acceleration
+of growth in the development of the muscles by which the body is
+maintained in the erect position (extensors of the leg), and in those
+important elements of beauty, a well-developed nose and beard. It is
+also superior in these points in which it is more embryonic than the
+other races, viz., the want of prominence of the jaws and cheekbones,
+since these are associated with a greater predominance of the cerebral
+part of the skull, increased size of cerebral hemispheres, and greater
+intellectual power.
+
+A comparison between the two sexes of the Indo-Europeans expresses their
+physical and mental relations in a definite way. I select the sexes of
+the most civilized races, since it is in these, according to Broca and
+Topinard, that the sex characters are most pronounced. They may be
+contrasted as follows. The numbers are those of the list already used.
+I first consider those which are used in the tables of embryonic,
+quadrumanous, and race characters:
+
+           MALE.                       FEMALE.
+               I. _The General Form_.
+   2. Shoulders square.          Shoulders slope.
+   4. Waist less constricted.    Waist more constricted.
+   5. Hips narrower.             Hips wider.
+   6. Legs longer.               Legs shorter (very frequently).
+   8. Muscles larger.            Muscles smaller.
+
+               II. _The Integuments, etc_.
+  10. More hair on body, that    Less hair on body, that of head
+      of head shorter; beard.    longer; no beard.
+  12. Skin rougher (generally).  Skin smoother.
+
+               III. _The Head and Face_.
+  16. Superciliary ridges more   Superciliary ridges low.
+      prominent.
+  22. Eyes often smaller.        Eyes often larger.
+
+[Illustration: The Wrestler; original in the Vatican. This figure
+displays the characters of the male Indo-European, except the beard.]
+
+The characters in which the male is the most like the infant are two,
+viz., the narrow hips and short hair. Those in which the female is most
+embryonic are five, viz., the shorter legs, smaller muscles, absence of
+beard, low superciliary ridges, and frequently larger eyes. To these may
+be added two others not mentioned in the above lists; these are 1, the
+high pitched voice, which never falls an octave, as does that of the
+male; and 2, the structure of the generative organs, which in all
+mammalia more nearly resemble the embryo and the lower vertebrata in the
+female than in the male. Nevertheless, as Bischoff has pointed out, one
+of the most important distinctions between man and the apes is to be
+found in the external reproductive organs of the female.
+
+From the preceding rapid sketch the reader will be able to explain the
+meaning of most of the peculiarities of face and form which he will
+meet with. Many persons possess at least one quadrumanous or embryonic
+character. The strongly convex upper lip frequently seen among the lower
+classes of the Irish is a modified quadrumanous character. Many people,
+especially those of the Sclavic races, have more or less embryonic
+noses. A retreating chin is a marked monkey character. Shortness
+of stature is mostly due to shortness of the femur, or thigh; the
+inequalities of people sitting are much less than those of people
+standing. A short femur is embryonic; so is a very large head. The faces
+of some people are always partially embryonic, in having a short face
+and light lower jaw. Such faces are still more embryonic when the
+forehead and eyes are protuberant. Retardation of this kind is
+frequently seen in children, and less frequently in women. The length of
+the arms would appear to have grown less in comparatively recent times.
+Thus the humerus in most of the Greek statues, including the Apollo
+Belvidere, is longer than those of modern Europeans, according to a
+writer in the Bulletin de la Soci�t� d'Anthropologie of Paris, and
+resembles more nearly that of the modern Nubians than any other people.
+This is a quadrumanous approximation. The miserably developed calves of
+many of the savages of Australia, Africa, and America are well known.
+The fine, swelling gastroenemius and soleus muscles characterize the
+highest races, and are most remote from the slender shanks of the
+monkeys. The gluteus muscles developed in the lower races as well as
+in the higher distinguish them well from the monkeys with their flat
+posterior outline.
+
+It must be borne in mind that the quadrumanous indications are found in
+the lower classes of the most developed races. The status of a race or
+family is determined by the percentage of its individuals who do and do
+not present the features in question. Some embryonic characters may
+also appear in individuals of any race, as a consequence of special
+circumstances. Such are, however, as important to the physiognomist as
+the more normal variations.
+
+Some of these features have a purely physical significance, but the
+majority of them are, as already remarked, intimately connected with
+the development of the mind, either as a cause or as a necessary
+coincidence. I will examine these relations in a future article.
+
+       *       *       *       *       *
+
+
+
+
+THE PRODUCTION OF FIRE.
+
+
+In 1867 the Abb� Bourgeois found at Thenay, near Pont-levoy
+(Loir-et-Cher), in a marly bank belonging to the most ancient part of
+the middle Tertiary formation, fragments of silex which bore traces of
+the action of fire. This fire had not been lighted by accidental causes,
+for, says Mr. DeMortillet (_Le Prehistorique_, p. 90), the causes of
+instantaneous conflagrations can be only volcanic fires, fermentations,
+and lightning. "Now, in the entire region there is no trace of volcanic
+action, and neither are there any traces of turfy or vegetable deposits
+capable of giving rise to spontaneous inflammations--phenomena that
+are always very rare and very exceptional, as are also conflagrations
+started by lightning. Well, in the Thenay marls, the pieces of silex
+that had undergone the action of fire were found disseminated at
+different levels, and this could not have been a simple accident, but
+was evidently something that had been done intentionally. There existed,
+then, during the Aquitanian epoch, a being who was acquainted with fire
+and knew how to produce it."
+
+Mr. De Mortillet supposes that this being was an animal intermediate
+between man and the monkey, which he calls the _anthropopithecus_.
+
+This precursor of man made use of fire for splitting silex and
+manufacturing from it instruments whose cutting edge he perfected by
+means of a series of retouchings produced by slight percussions upon one
+of the surfaces only.
+
+I shall not enter in this place upon a discussion as to the existence
+of an anthropopithecus or Tertiary man, whom every one does not as yet
+accept, but will confine myself to giving the facts as to the use of
+fire in the remotest epochs, incontestable proofs of which exist from
+the time at which Quaternary man made his appearance. How this was
+discovered is indicated, according to Aryan tradition, by the Vedic
+hymns. The ancestors of the Aryans, these tell us, had seen the lighting
+dart forth from the shock of black clouds. They had seen the spark that
+fired the forests issue from the friction of dry branches agitated by
+the storm. They took a branch of soft wood, _arani_, and passing a thong
+around a branch of hard wood, _pramontha_, they caused it to revolve
+rapidly in a cavity in the _arani_, and thus evoked the god _Agni_, whom
+they nourished with libations of clarified butter, _soma_.
+
+The _Pramontha_, became the _Prometheus_ of the Greeks, the Titan who
+stole the fire, and it is from the Sanscrit _Agni_ that is derived the
+Latin _Ignis_, "fire," and the Greek [Greek: Agnos], "pure," and the
+_Agnus Dei_ of the Christians, who purifies all.
+
+Orientalists generally agree that the sign which is seen under the forms
+[inline illustration], [inline illustration], or [inline illustration],
+on a large number of objects of Aryan origin is a sort of sacred
+hieroglyphic, representing the _arani_ or _svastika_, formed of two
+pieces of soft wood fixed by four pins in such a way as not to revolve
+under the pressure of the Pramontha.
+
+This process of producing fire is also found among a host of more or
+less savage peoples, and especially in India, where, during the last
+month of the great feast of sacrifices, the sacred fire must always be
+kindled three hundred and sixty times a day with nine different kinds of
+wood that are prescribed by the rite.
+
+Fig. 1 shows the arrangement in use among the Eskimos, and Fig. 2 that
+employed by the Indians of North America.
+
+In 1828 there still existed at Essen, in Hanover, an analogous apparatus
+designed to produce an alarm fire. This was a large, horizontal, round
+wooden bar whose extremities pivoted in two apertures formed in vertical
+posts, and which was provided with a cord that was wound around it
+several times. Several persons, by pulling on the ends of this cord,
+caused the bar to revolve alternately in one direction and the other,
+and the heat developed by the friction lighted some tow that had
+previously been inserted in one of the apertures in the post.
+
+[Illustration: FIG. 1.--ESKIMO PRODUCING FIRE BY FRICTION.]
+
+It is certain that the alternate motion must have been produced directly
+by hand before being effected by cords. This simpler process is still in
+use in Tasmania, Australia, Polynesia, Kamtschatka, Thibet, Mexico, and
+among the Guanches of the Canary Isles, who are supposed to be the last
+representatives of the inhabitants of Atlantis, which sank under the
+waters at the close of the Quaternary epoch.
+
+Chamisso, who accompanied Kotzebue in his voyage, describes it as
+follows: "In the Caroline Islands, they rest a vertical piece of
+roundish wood, terminating in a point, and about a foot and a half in
+length and one inch in diameter, upon a second one fixed in the ground,
+and then give it a rotary motion by acting with the palms of the
+hands. This motion, which is at first slow and measured, is at length
+accelerated, while at the same time the pressure becomes stronger,
+whereupon the dust from the wood which has formed by friction and
+accumulated around the point of the movable piece begins to carbonize.
+This dust, which, after a fashion, constitutes a match, soon bursts into
+flame. The women of Eap are wonderfully dexterous in their use of this
+process."
+
+[Illustration: FIG. 2.--PROCESS EMPLOYED IN NORTH AMERICA FOR PRODUCING
+FIRE.]
+
+Fig. 3 shows another manner of obtaining fire by rotation which is
+employed by the Guachos, a half savage, pastoral people who inhabit the
+pampas of South America. Longitudinal friction must have preceded that
+obtained by rotation. It is still in use in most of the islands of
+Oceanica (Fig. 4), and especially in Tahiti and in the Sandwich Islands.
+
+In these latter, says again Chamisso, upon the fixed piece of wood they
+place another piece of the same kind, about the length of the palm, and
+press it obliquely at an angle of about 30 degrees. The extremity that
+touches the fixed piece is blunt, and the other extremity is held with
+the two hands, the two thumbs downward, in order to allow of a surer
+pressure. The piece is given an alternating motion, and in such a way
+that it shall always remain in the same plane inclined at an angle of 30
+degrees, and form, through friction, a small groove from six to eight
+centimeters in length. When the dust thus produced begins to carbonize,
+the pressure and velocity are increased. Wood of a homogeneous texture,
+neither too hard nor too soft, is the best for the purpose.
+
+The Malays operate as follows: A dry bamboo rod, about a foot in length,
+is split longitudinally, and the pith which lines the inside is scraped
+off, pressed, and made into a small ball which is afterward placed in
+the center of the cavity of one of the halves of the tube. This latter
+half is then fixed to the ground in such a way that the cavity and ball
+face downward. The operator next fashions the other half of the tube
+into a straight cutting instrument like a knife-blade, which he applies
+transversely to the fixed half and gives an alternating motion so as to
+produce a sort of sawing. After a certain length of time, a groove, and
+finally a hole, is produced. The cutting edge of the instrument is then
+so hot that it sets on fire the ball with which it has come in contact.
+
+[Illustration: FIG. 3.--GAUCHO OBTAINING FIRE.]
+
+Some peoples, the Fuegians especially, procure fire by striking together
+two flints. In the Aleutian Islands these latter, having been previously
+covered with sulphur, are struck against each other over a small saucer
+of dry moss dusted with sulphur. The Eskimos employ for this purpose
+pieces of quartz and iron pyrites.
+
+In the Sandwich Islands recourse is had to a process that necessitates
+much skill. There is arranged in a large dry leaf, rolled into the
+shape of a funnel, a certain number of flints along with some easily
+combustible twigs. On attaching the leaf to the end of a rod, and
+revolving the latter rapidly, it is said that fire is produced.
+
+Processes that are based upon the clashing of two flint stones must be
+much more inconvenient of application than we would be led to suppose.
+We are, in fact, accustomed to see the flint and steel used, but here
+the spark is a bit of iron raised to red heat through a mechanical
+action that has violently detached it from the mass under the form of
+a small sliver. In the case of two flint stones, the light that
+is perceived is of an entirely different nature, for it is a
+phosphorescence which is produced, even by a very slight friction, not
+only between two pieces of silex, but also between two pieces of quartz,
+porcelain, or sugar; and that the heat developed is but slight is proved
+by the fact that the phenomenon may occur under water. Of course,
+fragments of stones may be raised to a red heat through percussion; but
+this does not often occur, so for this reason the Fuegians keep up with
+the greatest care the fires that they have lighted, and it is this very
+peculiarity that has given their country a characteristic aspect and
+caused it to be named Terra del Fuego (land of fire). When they change
+their residence they always carry with them a few lighted embers which
+rest in their canoes upon a bed of pebbles or ashes.
+
+The same thing occurs, moreover, among the Australians and Tasmanians,
+who employ, as we have just seen, the rotary process. There are women
+among these peoples whose special mission it is to carry day and night
+lighted torches or cones made of a substance that burns slowly like
+punk. When, through accident, the fire happens to get extinguished in a
+tribe, these people often prefer to undertake a long voyage in order to
+obtain another light from a neighboring tribe rather than have recourse
+to a direct production of it.
+
+We can understand from what is still taking place in these distant
+countries why the worship of fire should have existed among our
+ancestors, and why sacerdotal associations, such as the Brahmins of
+India, the Guebers of Persia, the Vestals of Rome, the priests of Baal
+in Chaldea and Phenicia should have been specially instituted for
+producing and preserving it.
+
+Plutarch narrates (Numa, chap. ii.) that when the sacred fire happened
+to go out, there was employed for relighting it a brass mirror that
+had the form of a cone generated by the hypothenuse of an isosceles
+rectangular triangle revolving around one of the sides of the right
+angle.
+
+[Illustration: FIG. 4.--NATIVE OF OCEANICA OBTAINING FIRE BY FRICTION.]
+
+In a poem upon stones attributed to Orpheus, it is said that the sacred
+fire was also lighted by a bit of crystal which concentrated the rays of
+the sun upon the material to be inflamed. This process must have been
+the one that was most usually employed before fire became common. In
+fact, a plano-convex crystal lens has been found among the ruins of
+Nineveh. Aristophanes, in the _Clouds_, puts on the stage a coarse
+personage named Strepsiades, who points out to Socrates how he must
+manage so as not to pay his debts:
+
+"Streps.--Hast thou seen among druggists that beautiful transparent
+stone that they employ for lighting a fire?
+
+"Socr.--Thou meanest glass.
+
+"Streps.--Yes.
+
+"Socr.--Well! what wouldst thou do with it?
+
+"Streps.--When the registrar shall have made out his summons against me,
+I will take the glass, and, placing myself thus in the sun, will cause
+his writing to melt."
+
+As well known, writing was then traced on waxen tablets. Servius (in
+_�n_., xii., 200) affirms that men of ancient times, instead of lighting
+fire upon the altar themselves, in their sacrifices, caused it to
+descend from heaven. He adds, according to Pliny, Titus Livius, and
+several old Latin historians, that Numa, who was initiated into all the
+wisdom of Etruria, practiced this art with success, but that Tullius
+Hostilius, having desired to repeat the evocation, guided only by the
+books of Numa, did not accomplish all the formalities prescribed by the
+rite and was struck dead by lightning.
+
+Is it not curious that twenty-four centuries afterward, in 1753,
+the physicist Reichman was killed by lightning in trying to repeat
+Franklin's experiment? This coincidence, however, is not the only one.
+Pliny (ii., 53) recounts that lightning was evoked by King Porsenna at
+the time when a monster named _Volta_, who was ravaging the country, was
+directing himself toward the capital, Volsinies.
+
+If we return to the Vedas, who had the habit of personifying all
+phenomena, we shall find that the fire Agni was the son of the carpenter
+who had manufactured the instrument by which it was produced, and of
+_Maya_ (magic). He took the name of Akta (anointed, [Greek: christos])
+when, nourished by libations of butter, he had acquired his full
+development. The Persians attributed likewise to Zoroaster the power
+of causing fire to descend from heaven through magic. Saint Clement of
+Alexandria (_Recog_., lib. iv.) and Gregory of Tours (_Hist. de Fr._,
+i., 5) speak of this. However this may be, the marvelous art was lost
+at an early date, for it was at such a date that priests began to have
+recourse to tricks that were more or less ingenious for lighting their
+sacred fireplaces in an apparently supernatural manner.--_A. De Rochas,
+in La Nature_.
+
+       *       *       *       *       *
+
+
+
+
+ST. BLAISE, THE WINNER OF THE DERBY.
+
+
+St. Blaise, the property of Sir Frederick Johnstone, was bred by Lord
+Alington, and is by Hermit from Fusee. This is an unexceptionable
+pedigree, for Hermit is now as successful and fashionable a sire as was
+even Stockwell in his palmiest days, while Fusee was far more than an
+average performer on the turf, and won several Queen's Plates and other
+races over a distance of ground. St. Blaise is by no means a big colt,
+standing considerably under sixteen hands. His color is about his worst
+point, as he is a light, washy chestnut, with a bald face and three
+white heels. He has a good head and neck, and very powerful back and
+muscular quarters, added to which his legs and feet are well shaped and
+thoroughly sound. His first appearance was made in the Twenty-fourth
+Stockbridge Biennial at the Bibury Club Meeting, when he won easily
+enough; but there were only four moderate animals behind him. A
+walk-over for the Troy Stakes followed, and then Macheath beat him
+easily enough for the Hurstbourne Stakes, though he finished in front
+of Adriana and Tyndrum. For the Molecomb Stakes at Goodwood, he ran a
+dead-heat with Elzevir, to whom he was giving 7 lb.; and Bonny Jean,
+in receipt of 10 lb., was unplaced. A 7 lb. penalty seemed to put him
+completely out of the Dewhurst Plate; but he must then have been out
+of form, as, on the following day, it took him all his time to defeat
+Pebble by a neck in the Troy Stakes. This season he has only run twice.
+His fourth in the Two Thousand was by no means a bad performance,
+considering that he was palpably backward; and his victory of last week
+is too recent to need further allusion. Porter, his trainer, can boast
+of several other successes in the great race at Epsom; but Charles Wood
+had never previously ridden a Derby winner. St. Blaise was unfortunately
+omitted from the entries for the St. Leger, but has several valuable
+engagements at Ascot next week, and appears to have the Grand Prize of
+Paris, on Sunday, at his mercy.--_Illustrated London News_.
+
+[Illustration: ST. BLAISE, THE WINNER OF THE DERBY.]
+
+       *       *       *       *       *
+
+[NATURE.]
+
+
+
+
+SCIENTIFIC PROGRESS IN CHINA AND JAPAN.
+
+
+Various steps in the progress of China, and Japan in the adoption of
+Western science and educational methods have from time to time been
+noticed in these columns. To the popular mind the names of the two
+countries are synonymous with rigid, unreasoning conservatism and with
+rapid change, respectively. The grave, dignified Chinese, who maintains
+his own dress and habits even when isolated among strangers, and whose
+motto appears to be, _Stare super mas antiquas_, is popularly believed
+to be animated by a sullen, obstinate hostility toward any introduction
+from the West, however plain its value may be; while his gayer and more
+mercurial neighbor, the Japanese, is regarded as the true child of the
+old age of the West, following assiduously in its parent's footsteps,
+and pursuing obediently the path marked out by European experience.
+There is considerable misconception in this, as indeed there is at
+all times in the English popular mind with regard to strange peoples.
+Broadly speaking, it is no doubt correct to say that, Japan has adopted
+Western inventions and scientific appliances with avidity; that she
+has shown a desire for change which is abnormal, and a disposition to
+destroy her charts and sail away into unsurveyed seas, while China
+remains pretty much where she always was. She is now, with some
+exceptions, what she was twenty, two hundred, perhaps two thousand years
+ago, while a new Japan has been created in fifteen years. All this, we
+say, is true, but it is not the whole truth. China also has had her
+changes; not indeed so marked or rapid, not so much in the nature of a
+_volte-face_ on all her past as those of her neighbor.
+
+The radical difference between the two countries in this respect we take
+to be this: that while Japan loves change for the sake of change, China
+dislikes it, and will only adopt it when it is clearly demonstrated to
+her that change is absolutely necessary. To the Japanese change appears
+to be a delightful excitement, to the Chinese a distasteful necessity;
+to the former whatever is must be wrong, to the latter whatever is is
+right. As a consequence of this difference between the two peoples, when
+China once makes a step forward it is generally after much deliberation,
+and is never retraced. Japan is constantly undertaking new schemes
+with little care or thought for the morrow, but with the applause of
+injudicious foreign friends. In a short time she discovers that she has
+underrated the expense or exaggerated the results, and her projects
+are straightway abandoned as rapidly and thoughtlessly as they were
+commenced. Swift suggested as a suitable subject for a philosophical
+writer a history of human projects which were never carried out; the
+historian of modern Japan finds these at every turn. Where, for example,
+are the results of the great surveys, trigonometrical and others, which
+were commenced in Yezo and the main island about ten years ago? A large,
+expensive, but highly competent foreign staff was engaged, and worked
+for a few years; but suddenly the whole survey department was swept
+away, and the valuable instruments are, or were recently, lying rusting
+in a warehouse in Tokio. The same story may be told of scores of other
+scientific or educational undertakings in Japan. An able and careful
+writer, Col. H.S. Palmer, R.E., who has recently, with a friendly and
+sympathetic eye, examined the whole field of recent Japanese progress,
+in the _British_ _Quarterly Review_ is forced to acknowledge this. "Once
+having recognized," says this officer, "that progress is essential to
+welfare, and having resolved, first among the nations of the East, to
+throw off past traditions and mould their civilization after that of
+Western countries, it was not in the nature of the lively and impulsive
+Japanese to advance along the path of reform with the calmness and
+circumspection that might have been possible to a people of less active
+temperament. Without doubt many foreign institutions were at first
+adopted rather too hastily, and the passing difficulties which now beset
+Japan are to some extent the inevitable result." It would be blindness
+to deny that the net result of the Japanese efforts is progress of a
+very remarkable kind, but it is a progress which in many respects lacks
+the firm and abiding characteristics of Chinese movements.
+
+The proverb, _Chi va piano va sano_, which was recommended ten years ago
+to Japanese attention by an eminent English official, and apparently
+disregarded by them, has been adopted by their continental neighbors.
+To the blandishments of pushing diplomatists or acute promoters, the
+Chinese are deaf. However we may felicitate ourselves on our inventions,
+scientific appliances, "the railway and the steamship and the thoughts
+that shake mankind," our progress, the newspapers, the penny post, and
+what not, China will not adopt them simply because _we_ have found
+their value and are proud of them. But if, within the range of her own
+experience, she finds the advantage of these things, she will employ
+them with a rapidity and decision surpassing those of the Japanese. A
+conspicuous instance of this will be found in her recent action with
+respect to telegraphs. For years the Chinese steadily refused to have
+anything to do with them; the small land line which connected the
+foreign community of Shanghai with the outer world, was maintained
+against the violent protests of the local authorities, and the cable
+companies experienced some difficulty in getting permission to land
+their cables. But during the winter of 1870-80, when war with Russia
+was threatened, the value of telegraphs was demonstrated to the Peking
+government. The Peiho at Tientsin was closed by ice against steamers,
+and news could only be carried to the capital by overland couriers from
+Shanghai. Before a year elapsed a land line of telegraph was being
+constructed between this port and Tientsin; in a few months the line
+was in working order, and the Chinese metropolis is now in telegraphic
+communication with every capital in Europe.
+
+This conservatism, respect for antiquity, conceit, prejudice, call it
+what we will, has something in it that extorts our respect. Let us
+imagine a dignified and cultivated Chinese official conversing with
+a pushing Manchester or Birmingham manufacturer, who descants on the
+benefits of our modern inventions. He would probably commune with
+himself in this wise, whatever reply Oriental politeness would dictate
+to his interviewer: "China has got on very well for some tens of
+centuries without the curious things of which this foreigner speaks; she
+has produced in this time statesmen, poets, philosophers, soldiers; her
+people appear to have had their share of affliction, but not more than
+those of Europe; why should we now turn round at the bidding of a
+handful of strangers who know little of us or our country, and make
+violent changes in our life and habits? A railway in a province will
+throw thousands of coolies and boatmen out of employment and bring
+on them misery and starvation. This foreigner says that railways and
+telegraphs have been found beneficial in his country; good, let his
+countrymen have them if they please, but let us rest as we are for the
+present. Moreover, past events have not given us such faith in Europeans
+that we should take all they say for wisdom and justice." A day will
+undoubtedly come when China also will have her great mechanical and
+scientific enterprises; but what we contend for here is that nothing
+we can say or do will bring that time an hour nearer. European public
+opinion is to China a dead letter; she refuses to plead before that
+tribunal. Each step of her advance along our path must be the result of
+her own reflection and experience; and our wisest policy would be to
+leave her to herself to advance on it as she deems best. SINENSIS.
+
+       *       *       *       *       *
+
+
+
+
+THE DIAMOND FIELDS OF SOUTH AFRICA.
+
+
+At a recent meeting of the Institution of Civil Engineers, the paper
+read was "On the Diamond Fields and Mines of South Africa," by Mr. James
+N. Paxman, Asoc. M. Inst. C.E.
+
+The author commenced by stating that Kimberley was situated in
+Griqualand West, above 700 miles northeast from Table Bay, and 450 miles
+inland from Port Elizabeth and Natal on the east coast. Lines of railway
+were in course of construction from Table Bay and Port Elizabeth to
+Kimberley, and were about half completed. In Griqualand there were
+several diamond mines, the principal of which were Kimberley, De Beer's,
+Du Toit's Pan, and Bultfontein.
+
+In the Orange Free States there were also two mines, viz., Jagersfontein
+and Koffeyfontein, the first of which produced fine white stones. The
+mines were all divided into claims, the greatest number of which were to
+be found in the Du Toit's Pan mine. Bultfontein came next.
+
+The deepest and most regularly worked was the Kimberley mine. The next
+deepest was De Beer's, which, however, was very unevenly worked. Then
+followed Du Toit's Pan and Bultfontein. The Du Toit's Pan mine ranked
+next in importance to Kimberley mine. Diamonds were first discovered in
+1867 by Mr. O'Reilley, a trader and hunter, who visited a colonist named
+van Niekirk, residing in Griqua. The first diamond, on being sent to the
+authorities, was valued at 500_l_. Considerable excitement was caused
+throughout the colony, and the natives commenced to look for diamonds,
+and many were found, among which was one of eighty-three and a half
+carats, valued at 15,000_l_. In 1868 many enterprising colonists made
+their way up the Vaal River, and were successful in finding a good
+number of diamonds. The center of the river diggings on the Transvaal
+side was Klipdrift, and on the opposite side Pniel. In all there were
+fourteen river diggings. Du Toit's Pan and Bultfontein mines were
+discovered in 1870 at a distance of twenty-four miles from the river
+diggings. The diggers took possession of these places. Licenses were
+granted giving the first diggers a right to work. In 1871 De Beer's
+and Kimberley mines were discovered, and in 1872, Mr. Spalding's great
+diamond of 282� carats was found at the river diggings.
+
+The mines were of irregular shape, and were surrounded by reef. The top
+reef was a loose shale, and had given great trouble from the frequent
+slips. Below this were strata of trachitic breccia and augite; the
+formation was then seamy to an unknown depth.
+
+Within the reef, the surface soil was red, and of a sandy nature. The
+next stratum was of a loose, yellow, gravelly lime, and the third blue,
+of a hard, slaty nature. This last was the real diamantiferous soil.
+Large stones had been found in the "yellow," but the working of this
+generally did not pay. Kimberley mine, however, had paid very well all
+through. The method of working in deep ground was determined by roadways
+running north and south. The soil was hauled up to these roadways,
+and taken to the sorting tables. The roadways decaying shortly after
+exposure to the atmosphere, a system of hand windlass was adopted, which
+worked very well for a time until horsewhims were adopted in 1873.
+The depths of the mines increasing, horsewhims had to give way to
+steam-engines in 1876.
+
+The first diggers treated on an average ten loads per day each party. At
+the present time the least taken out by any engine, when fully employed,
+was 250 loads per day. The cost of working, with present appliances, the
+first one hundred feet in depth, was 3s. 6d. per load; the second one
+hundred feet (mostly blue) 5s.; the third one hundred feet 8s.; and
+the fourth one hundred feet 11s. Through scarcity of water a system
+of dry-sorting had to be resorted to for several years; but it was
+superseded by the introduction of washing machinery, which was now
+generally employed.
+
+At the commencement, through inexperience, many serious mistakes were
+made. When the first diggers reached the bottom of the red sand, they
+thought no diamonds would be found in the next stratum. When, however,
+diamonds were found in the second stratum, the diggers had again to
+remove the debris, and so also when the "blue" was reached. Some of the
+claims in the Du Toit's Pan and Bultfontein mines were irregular in
+shape. The other mines, however, had been properly and regularly laid
+out. One or two shafts had been connected with the mines by underground
+galleries. These galleries were convenient in the case of falls of reef.
+Labor, at first, was cheap; but from 20s. per month, wages rose to 30s.
+per week, and food. The yellow soil offered no difficulty in working,
+being loose and broken, but the blue soil required blasting.
+
+Several methods were adopted for extracting the soil and carrying it
+from the mine before steam was introduced. The cost of wood for heating
+purposes was a serious item, but good coal had now been found at 160
+miles from Kimberley, costing 13l. per ton; another serious item of
+expense was the transport over natural roads only, costing from 18_l_.
+to 30_l_. per ton.
+
+The machinery designed by the author for this industry was described.
+A sixteen horse-power direct-acting winding engine was introduced for
+hauling up loads at the rate of about one thousand feet per minute, and
+a twenty-five horse-power geared engine, for hauling up heavier loads at
+the rate of from six hundred feet to seven hundred feet per minute.
+
+Water was dear, and water-heaters were fitted to each engine, by which
+thirty-three per cent. of the water was again used, thus saving one
+third. The boilers were of the locomotive type, mostly of steel, to save
+weight, and thus reduce the cost of transit. The fire-boxes were also
+made of steel of very soft and ductile quality. A semi-portable engine
+was made for driving the wash mill. The engine was so arranged that it
+might be removed from the boiler and placed separately. The boiler was
+made to work at a pressure of 140 pounds per square inch. Automatic cut
+off gear was fixed to each engine, and the governors were provided with
+a spiral spring for adjusting the speed. A screen, or cylinder wash mill
+and elevator, were used for dealing with the diamantiferous soil, and
+were described. Standing wires were fixed at the back of the machinery,
+and passed over a frame fixed at the top of the mine, the end of the
+mine being secured to strong wooden posts. After the blue soil had been
+blasted and collected into trucks, it was placed in tubs, which ascended
+the standing wires. It was then emptied into the depositing box. The
+yellow soil might be put into the wash mill direct, also that portion of
+the blue which had passed through the screen fixed over the depositing
+box. The remainder of the blue, which was spread out to a thickness of
+four inches or six inches on the depositing ground, some distance from
+the mine to dry, was delivered into the upper part of the screen. The
+return water from the elevator, with a portion of fresh water, was also
+discharged at this point, and operations were thus greatly facilitated,
+the soil becoming thoroughly saturated, and passing more easily down the
+shoots. The large pieces which would not drop through the meshes of the
+screen were discharged into trucks at the lower end and carried away.
+The smaller pieces with water, in the form of sludge, fell through into
+a shoot, and thus were conveyed into the wash mill pan, and there kept
+in constant rotating motion by agitators. The diamonds and other pieces
+of high specific gravity sank to the deepest part of the pan, and the
+remainder of the sludge was forced over the inner ledge to the elevator.
+The sludge was then lifted and thrown upon an inclined screen and down
+the shoot over the side of the bank. The residue left in the pan at the
+end of the day's work was passed through a pulsator, in which, by the
+force of water, the mud and lighter particles were carried away, leaving
+behind the diamonds, agates, garnets, and other heavy stones. It was the
+practice occasionally to put a few inferior stones in the soil, to test
+the efficiency of the machinery.
+
+In 1881 the author paid a visit to Kimberley, and found the industry a
+large one. The Post Office return showed the value of diamonds passed
+through the office in one year to be 3,685,000_l_. Illicit diamond
+traffic had hitherto been a source of great trouble at the fields. It
+was a question whether this industry would ever cease; in any case there
+was no doubt but that it would last for over a century. It was believed
+that the main bed of diamonds had not yet been reached, and that the
+mines in operation were merely shafts leading to it. Now that the water
+works were finished, with a bountiful supply of water, coupled with
+the great boon of railways to the Fields, and the advantage of a law
+recently passed for the prevention of illicit buying, a great and
+prosperous future was in store for the Diamond Fields.
+
+       *       *       *       *       *
+
+
+
+
+SPONGES AT THE BAHAMAS.
+
+
+Within the last few decades the sponge industry of the Bahama Islands
+has increased at such a rate that to-day it is the second in importance
+on the island. Although the product is not of such excellent quality
+as that from the Mediterranean, it sells well and is in demand both in
+England and in America.
+
+For sponge fishing little boats of ten tons burden are employed and
+manned by from six to twelve men. The sponges that are washed upon the
+rocks and reefs are taken with iron rakes fastened to long poles, or
+are brought to the surface by divers and spread out on the deck of the
+vessel. This kills their soft, slimy organisms, which are black as tar.
+The sponges are then repeatedly beaten with sticks to remove this black
+slime, and afterward well washed.
+
+The sponges are then sorted and softened for several hours in lime
+water, dried in the sun, and bleached. They are finally pressed by
+machinery into 100 lb. balls and then packed for shipping.
+
+A rich and very extensive "sponge field" was recently discovered near
+Eleuthera, but as the water there has a considerable depth, five or six
+fathoms, fishing is attended with difficulty. In fact, it is rendered
+impossible wherever the "segler" or sailor fish are found, for the mud
+which these tiny creatures stir up completely veils the sponges from the
+eye of the fisherman.
+
+In 1881 the export amounted to $150,000, of which three-fourths came to
+America.--_Chem. Zeit_.
+
+       *       *       *       *       *
+
+
+
+
+TESTING FISH OVA FOR IMPREGNATION.
+
+
+The development of the eyes of game fishes (salmonoids), as is well
+known, is relatively far advanced before the fish culturist is
+positively assured that embryos are developing normally in the egg.
+A method, therefore, which would enable us to shorten this period of
+probation would not only be desirable, but be also of value under
+certain circumstances, since it is certainly annoying after having had
+them in water for four or five weeks, spending time and care over them,
+to eventually find, when the "eye spots" do not develop, that all our
+trouble was wasted and that no development at all took place.
+
+It is true one may, with proper preparations and with the help of the
+pocket lens or microscope, follow the development while there may be no
+external signs of the process evident. This method of making the
+test is, however, not adapted to the purposes of the practical fish
+culturist, who will have better success by the following method:
+
+If fertilized fish ova are placed in a 50 per cent. solution of wine
+vinegar [any ordinary vinegar will probably be found to answer just
+as well--_Tr_.] the embryo, even during the very first stages of
+development, will become apparent to the eye lying on the transparent
+yelk. The acetic acid contained in the mixture, one part water to
+one part wine vinegar, causes the material of the embryo proper to
+coagulate, while the yelk remains clear.
+
+A short time after the ova are laid in this mixture, and during the
+first week after impregnation, a white circle at one pole of the
+egg should become apparent, and in the course of the second week a
+cylindrical white streak running from the edge of the circle toward its
+center should be evident. If these features are not developed by the
+test, the eggs have not been fertilized, and are, therefore, worthless.
+
+We will not complicate the application of the method by describing other
+details of the development, but would merely suggest that when a lot of
+ova are fertilized a small portion should be left unimpregnated. These
+could then be tested in comparison with the fertilized ova from day to
+day, using say three eggs at a time of each lot. The observant culturist
+could by this means construct for himself a scale of development
+covering the period embraced by his experiments. At a lower temperature
+the development is slower than at a higher one. The difference of
+appearance between fertilized and unfertilized ova treated by the method
+will demonstrate its utility. Whoever does not trust to the method for
+the evidence of death of the eggs until after five weeks subsequent to
+impregnation, must of course wait.
+
+Director Tiefenthaler, of K�lzen, has had the kindness to test the
+method practically, and finds it useful to fish culturists.--_Prof.
+Nussbaum_.
+
+[A very little practice, it seems to the translator, would serve to
+enable any person of ordinary intelligence to apply this method, or
+several others which might be suggested. Other substances which would
+answer the same purpose would be dilute solutions of picric or chromic
+acid, of not more than one to one-half per cent., or one part to two
+hundred of water. Vinegar or acetic acid of the shops may also be used;
+the last to be diluted in the proportions of about one part in ten of
+water. The acids cited will coagulate and cause the germ disk to turn
+white or yellow in a few hours. Chromic is better than picric acid, as
+it coagulates the yelk also, but turns the latter much darker than the
+embryo or embryonic disk.--_Tr_.]
+
+       *       *       *       *       *
+
+A catalogue, containing brief notices of many important scientific
+papers heretofore published in the SUPPLEMENT, may be had gratis at this
+office.
+
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+<meta http-equiv="Content-Type" content=
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+<title>The Project Gutenberg eBook of Scientific American
+Supplement, July 7, 1883</title>
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+<pre>
+
+The Project Gutenberg EBook of Scientific American Supplement, No. 392,
+July 7, 1883, by Various
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+
+Title: Scientific American Supplement, No. 392, July 7, 1883
+
+Author: Various
+
+Posting Date: October 10, 2012 [EBook #8742]
+Release Date: August, 2005
+First Posted: August 7, 2003
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK SCIENTIFIC AMERICAN SUPPL., NO. 392 ***
+
+
+
+
+Produced by Olaf Voss, Don Kretz, Juliet Sutherland, Charles
+Franks and the Distributed Proofreaders Team
+
+
+
+
+
+
+</pre>
+
+
+<p class="ctr"><a href="images/1a.png"><img src=
+"images/1a_th.jpg" alt=""></a></p>
+
+<h1>SCIENTIFIC AMERICAN SUPPLEMENT NO. 392</h1>
+
+<h2>NEW YORK, JULY 7, 1883</h2>
+
+<h4>Scientific American Supplement. Vol. XVI, No. 392.</h4>
+
+<h4>Scientific American established 1845</h4>
+
+<h4>Scientific American Supplement, $5 a year.</h4>
+
+<h4>Scientific American and Supplement, $7 a year.</h4>
+
+<hr>
+<table summary="Contents" border="0" cellspacing="5">
+<tr>
+<th colspan="2">TABLE OF CONTENTS.</th>
+</tr>
+
+<tr>
+<td valign="top">I.</td>
+<td><a href="#1">ELECTRICITY AND MAGNETISM.--Improved Dynamo
+Machine. Eight figures.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#2">An Improved Manganese Battery.--By GEO.
+LEUCHS.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#3">The Cause of Evident Magnetism in Iron, Steel, and
+other Magnetic Metals.--By Prof. D. E. HUGHES.
+Neutrality.--Superposed Magnetism.--Elastic Nature of the Ether
+Surrounding the Magnetic Molecules. 3 figures.</a></td>
+</tr>
+
+<tr>
+<td valign="top">II.</td>
+<td><a href="#4">ENGINEERING.--The Westinghouse Brake. 2
+figures.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#5">Hydraulic Elevators and Motors.--By B. F.
+JONES.--Bearing upon the Water Supply of Cities.--Cost of Water
+used.--Objectionable effects on Water Works.--Best method of
+arranging water supply.--Cause of Accidents.--Advantages of Water
+Motors over Steam Engines.--Rates for Water Motors.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#6">Water Supply of Small Towns.--Process of Softening
+Hard Water. Six figures.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#7">Improved Water Meter. Several figures.</a></td>
+</tr>
+
+<tr>
+<td valign="top">III.</td>
+<td><a href="#8">TECHNOLOGY.--Washing Machine for Wool. 1
+figure.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#9">Increasing the Illuminating Power of Gases,
+etc.--By V. POPP.-- 3 figures.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#10">Preventing Iron from Rusting.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#11">An Elastic Mass for Confectioners' Use.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#12">Caoutchouc.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#13">Photographic Action Studied
+Spectroscopically.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#14">Salt and Lime.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#15">Renewing Paint without Burning.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#16">A Green or Golden Color for all Kinds of
+Brass.--By E. PULCHER.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#17">Vinegar.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#18">The Preservation of Meat by Carbonic
+Acid.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#19">On the Adulteration of Soap.--By Dr. H.
+BRACKEBUSCH.</a></td>
+</tr>
+
+<tr>
+<td valign="top">IV.</td>
+<td><a href="#20">CHEMISTRY.--Testing Olive Oil.--By Dr. O.
+BACH.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#21">On the Theory of the Formation of Compound
+Ethers.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#22">The Alizarine Industry.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#23">Reduction of Oxidized Iron by Carbonic
+Oxide.</a></td>
+</tr>
+
+<tr>
+<td valign="top">V.</td>
+<td><a href="#24">MEDICINE AND HYGIENE.--Bovine and Human Milk; the
+Difference in its Action and Composition.--By C. HUSSON.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#25">Cereal Foods in their Relation to Health and
+Disease.--By F. R. CAMPBELL.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#26">Moist Air in Living Rooms.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#27">The Developmental Significance of the Human
+Physiognomy.-- By E. D. COPE.--Numerous illustrations.</a></td>
+</tr>
+
+<tr>
+<td valign="top">VI.</td>
+<td><a href="#28">NATURAL HISTORY.--The Diamond Fields of South
+Africa.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#29">Sponges at the Bahamas.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#30">Testing Fish Ova for Impregnation.</a></td>
+</tr>
+
+<tr>
+<td valign="top">VII.</td>
+<td><a href="#31">MISCELLANEOUS.--The Production of Fire. 4
+figures.</a></td>
+</tr>
+
+<tr>
+<td></td>
+<td><a href="#32">St. Blaise.--The winner of the Derby. 1
+illustration.</a></td>
+</tr>
+</table>
+
+<hr>
+<p><a name="1"></a></p>
+
+<h2>IMPROVED DYNAMO MACHINE.</h2>
+
+<p>The continuous current and the alternating current generators
+invented by Dr. J. Hopkinson and Dr. Alexander Muirhead are
+peculiarly interesting as being probably the first in which the
+bobbins of the armature were wound with copper ribbon and arranged
+on a disk armature much in the same way as was afterward done by
+Sir William Thomson and by Mr. Ferranti. In the Muirhead-Hopkinson
+machine the armature coils are attached to a soft iron ring,
+whereas in the Ferranti the iron core is dispensed with, and a gain
+of lightness in the armature or rotating part effected; this
+advantage is of considerable importance, though Messrs. Hopkinson
+and Muirhead can of course reduce the weight of this iron core to
+insignificant proportions.</p>
+
+<p>[Illustration: HOPKINSON &amp; MUIRHEAD'S DYNAMO-ELECTRIC
+GENERATOR.]</p>
+
+<p>The general form of this generator is clearly shown by the side
+and end elevation.</p>
+
+<p>The armature is made by taking a pulley and encircling it with a
+rim of sheet-iron bands, each insulated from the other by asbestos
+paper. On one or both sides of the rim thus formed, radial slots
+are cut to admit radial coils of insulated copper wire or ribbon,
+so that they lie in planes parallel to the plane of the pulley. In
+the continuous current machine coils are placed on both sides of
+the iron rim and arranged alternately, that on the one side always
+covering the gap between two on the other side. In this way, when a
+coil on one side of the rim is at its "dead point" and yields its
+minimum of current, the corresponding coil on the other side is
+giving out its maximum.</p>
+
+<p>The field magnets are made in a similar manner to the armature
+and run in circles parallel to the rim of the latter. The cores may
+be built up of wrought iron as the rim of the armature is; but it
+is found cheaper to make them of solid wrought or cast iron. To
+stop the local induced currents in the core, however, Messrs.
+Muirhead and Hopkinson cut grooves in the faces of the iron cores,
+and fill them up with sheet-iron strips insulated from each other,
+similar to the sheet-iron rim of the armature.</p>
+
+<p>The coils, both in the armature and electro-magnets, are packed
+as closely as they may to each other, and have thus a compressed or
+quadrilateral shape. The arrangement is shown in Figs. 1 and 2,
+which represent, in side view and plan, the armature pulley with
+the soft iron rim and coils attached. There a is the pulley which
+is keyed to the shaft of the machine, and is encircled with bands
+of sheet iron, b, insulated from each other by ribbons of asbestos
+paper laid between every two bands. When the rim has been built up
+in this way, radial holes are drilled through it from the outer
+edge inward, and the whole rim is bound together by bolts, d,
+inserted in the holes and secured by cottars, e. Radial slots are
+then cut on each side of the rim all round, and the coils of wire
+mounted on them.</p>
+
+<p>Figs. 3 and 4 show the armature of the continuous current
+dynamo, with the coils on one side of the rim, half way between the
+coils on the other side, so as to give a more continuous current.
+In the alternating current machine the slots on the opposite faces
+are face to face.</p>
+
+<p>Figs. 5 and 9 illustrate the complete continuous current
+machine, Fig. 9 showing the internal arrangement of the field
+magnets, and Fig. 5 the external frame of cast iron supporting
+them. In these figures a is the armature already described, b b are
+the cores of the electro-magnets with a strong cast iron backing, c
+c; d d are the exciting coils or field magnets, so connected that
+the poles presented to the armature are alternately north and
+south, thus bringing a south pole on one side of the armature
+opposite a north pole on the other side.</p>
+
+<p>The commutator, e, is arranged to prevent sparking when the
+brushes leave a contact piece. This is done by splitting up the
+brushes into several parts and inserting resistances between the
+part which leaves the contact piece last and the rest of the
+circuit. This resistance checks the current ere the final rupture
+of contact takes place.</p>
+
+<p>Figs. 6 and 7 will explain the structure of the commutator. Here
+a a a are the segments or contact pieces insulated from each other,
+and b' b b are the collecting brushes carried on a spindle, c c'.
+One of these brushes, b', is connected to the spindle, c, through
+an electrical resistance of plumbago, arranged as shown in Fig. 7,
+where d e are metal cylinders, d being in contact with the brush,
+b', while e is in contact with the spindle, c. The space, f,
+between these two cylinders, d e, is filled with a mixture of
+plumbago and lampblack of suitable resistance, confined at the ends
+by ivory disks. The brush, b', is adjusted by bending till it
+remains in contact with any segment of the commutator for a short
+time after the other brushes have left contact with that segment,
+and thus instead of sudden break of circuit and consequent
+sparking, a resistance is introduced, and contact is not broken
+until the current has been considerably reduced.</p>
+
+<p>The contact segments are supported at both ends by solid
+insulating disks; but they are insulated from each other by the air
+spaces between them, where the brushes rub upon them.</p>
+
+<p>The alternating current dynamo of Drs. Hopkinson and Muirhead
+differs little in general construction from that we have described;
+except that the commutator is very much simplified, and the
+armature bobbins are placed opposite each other on both sides of
+the rim. Instead of forming the coils into complete bobbins, Dr.
+Muirhead prefers to wind them in a zigzag form round the grooved
+iron rim after the manner shown in Fig. 8, which represents a plan
+and section of the alternating current armature. This arrangement
+is simpler in construction than the bobbin winding, and is less
+liable to generate self-induction current in the armature. Sir
+William Thomson has adopted a similar plan in one of his dynamos.
+In Fig. 8, a is the pulley fixed to the spindle of the machine, b b
+is the iron rim, and c c are the zigzag coils of copper ribbon. The
+field magnets are also wound in a similar manner.</p>
+
+<p>It will be seen from our description that Drs. Hopkinson and
+Muirhead have scarcely had sufficient credit given them for this
+interesting machine, which so closely approximates to the Ferranti.
+One of their alternating dynamos has been built, and was shown at
+the Aquarium Exhibition. It works well, and is capable of
+supporting 300 Swan lights, while in size and appearance it
+resembles the Ferranti machine in a very striking manner. Drs.
+Muirhead and Hopkinson have also designed a magneto-electric
+alternating current machine; but as it closely resembles the
+machines described, with the exception that permanent magnets are
+employed as field magnets, we need not dwell upon it
+further.--<i>Engineering</i>.</p>
+
+<hr>
+<a name="2"></a>
+
+<h2>AN IMPROVED MANGANESE BATTERY.</h2>
+
+<h3>By GEORGE LEUCHS.</h3>
+
+<p>The Leclanche battery is distinguished for its simplicity, its
+small internal resistance (0.7 to 1.0 Siemens unit), and that all
+chemical action ceases when the current is broken, that it is not
+sensitive to external influence, and by the self-renewal of the
+negative electrodes. But on the opposite side the action is not
+very great (= 1.20 or 1.48 D.), and the zinc as well as the sal
+ammoniac are converted into products that cannot be utilized.</p>
+
+<p>I replace the solution of sal ammoniac by one of caustic potash
+or soda (12 to 15 per cent.), and the thin zinc rods by zincs with
+larger surfaces. In this manner, I obtain a powerful and odorless
+battery, having all the valuable qualities of the Leclanche, and
+one that permits of a renewal of the potash solution as well as of
+the negative electrode.</p>
+
+<p>The electromotive power of this element may be as high as 1.8 D.
+The same pyrolusite (binoxide of manganese) cylinder used with the
+same thin rod of zinc will precipitate 75 per cent. more copper
+from solution in an hour when caustic potash is used than when sal
+ammoniac is employed. But by replacing the thin zinc rod by a zinc
+cylinder of large surface, 2&frac12; times as much copper is
+precipitated in the same time.</p>
+
+<p>The more powerful action of such a pair is explained by the
+stronger excitation and more rapid regeneration that the negative
+electrodes undergo from the oxidizing action of the air in the
+potash solution, as well as by the fact that this solution is a
+better conductor than the sal ammoniac solution. The potash
+solution does not crystallize easily, hence the negative electrode
+remains free from crystals and does not require filling up with
+water. Zinc dissolves only while in contact with negative bodies,
+hence there is no unnecessary consumption of zinc either in the
+open or closed circuit.</p>
+
+<p>When the potash lye has become useless, I regenerate it by
+removing the zinc in the following manner: I pour the solution from
+the cells, put it in a suitable vessel, where I add water to
+replace that already evaporated, and then shake it up well at the
+ordinary temperature with hydrated oxide of zinc (zincic hydrate).
+Under this treatment the greater portion of the zinc that had been
+chemically dissolved by the potash is precipitated in the form of
+zinc hydrate, along with some carbonate. The liquid is now allowed
+to settle, and the clear supernatant solution is poured back again
+into the battery cells. The battery has rather greater
+electromotive force when this regenerated lye is used, because
+certain foreign matters from the carbon, like sulphur, chlorine,
+sulphuric acid, etc., are removed by this treatment.</p>
+
+<p>The regeneration of the (brown coal) carbon goes on of itself,
+beneath the lye, through the oxidizing action of the atmospheric
+air; it is advantageous to have a part of the carbon sticking out
+of the liquid. Of course the regeneration takes place much more
+quickly if the electrodes are taken out and exposed to the air. In
+this case the carbon electrode need not be very thick, and can be
+flat or of tubular form. In the former case it must have a large
+volume, and the massive cylindrical form is recommended. The zinc
+electrode must be kept covered deeply with potash. The cells must
+have free access of air, and the potash must be replaced as soon as
+it is exhausted.--<i>Chem. Zeit</i>.</p>
+
+<hr>
+<p>[Concluded from SUPPLEMENT No. 390, page 6217.]</p>
+
+<p><a name="3"></a></p>
+
+<h2>THE CAUSE OF EVIDENT MAGNETISM IN IRON, STEEL, AND OTHER
+MAGNETIC METALS.</h2>
+
+<p>[Footnote: Paper lately read before the Society of Telegraph
+Engineers and Electricians.]</p>
+
+<h3>By Professor D. E. HUGHES, F.R.S., Vice-President.</h3>
+
+<h3>NEUTRALITY.</h3>
+
+<p>The apparatus needed for researches upon evident external
+polarity requires no very great skill or thought, but simply an
+apparatus to measure correctly the force of the evident repulsion
+or attraction; in the case of neutrality, however, the external
+polarity disappears, and we consequently require special apparatus,
+together with the utmost care and reflection in its use.</p>
+
+<p>From numerous researches previously made by means of the
+induction balance, the results of which I have already published, I
+felt convinced that in investigating the cause of magnetism and
+neutrality I should have in it the aid of the most powerful
+instrument of research ever brought to bear upon the molecular
+construction of iron, as indeed of all metals. It neglects all
+forces which do not produce a change in the molecular structure,
+and enables us to penetrate at once to the interior of a magnet or
+piece of iron, observing only its peculiar structure and the change
+which takes place during magnetization or apparent neutrality.</p>
+
+<p>The induction balance is affected by three distinct arrangements
+of molecular structure in iron and steel, by means of which we have
+apparent external neutrality.</p>
+
+<p>Fig 1 shows several polar directions of the molecules as
+indicated by the arrows. Poisson assumed as a necessity of his
+theory, that a molecule is spherical; but Dr. Joule's experimental
+proof of the elongation of iron by one seven-hundred
+and-twenty-thousandth of its length when magnetized, proves at
+least that its form is not spherical; and, as I am unable at
+present to demonstrate my own views as to its exact form, I have
+simply indicated its polar direction by arrows--the dotted oval
+lines merely indicating its limits of free elastic rotation.</p>
+
+<p>In Fig. 1, at A, we have neutrality by the mutual attraction of
+each pair of molecules, being the shortest path in which they could
+satisfy their mutual attractions. At B we have the case of
+superposed magnetism of equal external value, rendering the wire or
+rod apparently neutral, although a lower series of molecules are
+rotated in the opposite direction to the upper series, giving to
+the rod opposite and equal polarities. At C we have the molecules
+arranged in a circular chain around the axis of a wire or rod
+through which an electric current has passed. At D we have the
+evident polarity induced by the earth's directive influence when a
+soft iron rod is held in the magnetic meridian. At E we have a
+longitudinal neutrality produced in the same rod when placed
+magnetic west, the polarity in the latter case being
+transversal.</p>
+
+<p>In all these cases we have a perfectly symmetrical arrangement,
+and I have not yet found a single case in well-annealed soft iron
+in which I could detect a heterogeneous arrangement, as supposed by
+Ampere, De la Rive, Weber, Wiedermann, and Maxwell.</p>
+
+<p>We can only study neutrality with perfectly soft Swedish iron.
+Hard iron and steel retain previous magnetizations, and an apparent
+external neutrality would in most cases be the superposition of one
+magnetism upon another of equal external force in the opposite
+direction, as shown at B, Fig. 1. Perfectly soft iron we can easily
+free, by vibrations, from the slightest trace of previous
+magnetism, and study the neutrality produced under varying
+conditions.</p>
+
+<p class="ctr"><img src="images/2a.png" alt="FIG. 1."></p>
+
+<p class="ctr">FIG. 1.</p>
+
+<p>If we take a flat bar of soft iron, of 30 or more centimeters in
+length, and hold it vertically (giving while thus held a few
+torsions, vibrations, or, better still, a few slight blows with a
+wooden mallet, in order to allow its molecules to rotate with
+perfect freedom), we find its lower end to be of strong north
+polarity, and its upper end south. On reversing the rod and
+repeating the vibrations, we find that its lower end has precisely
+a similar north polarity. Thus the iron is homogeneous, and its
+polarity symmetrical. If we now magnetize this rod to produce a
+strong south pole at its lower portion, we can gradually reverse
+this polarity, by the influence of earth's magnetism, by slightly
+tapping the upper extremity with a small wooden mallet. If we
+observe this rod by means of a direction needle at all parts, and
+successively during its gradual passage from one polarity to the
+other, there will be no sudden break into a haphazard arrangement,
+but a gradual and perfectly symmetrical rotation from one direction
+to that of the opposite polarity.</p>
+
+<p>If this rod is placed east and west, having first, say, a north
+polarity to the right, we can gradually discharge or rotate the
+molecules to zero, and as gradually reverse the polarity by simply
+inclining the rod so as to be slightly influenced by earth's
+magnetism; and at no portion of this passage from one polarity to
+neutrality, and to that of the opposite name, will there be found a
+break of continuity of rotation or haphazard arrangement. If we
+rotate this rod slowly, horizontally or vertically, taking
+observations at each few degrees of rotation of an entire
+revolution, we find still the same gradual symmetrical change of
+polarity, and that its symmetry is as complete at neutrality as in
+evident polarity.</p>
+
+<p>In all these cases there is no complete neutrality, the
+longitudinal polarity simply becoming transversal when the rod is
+east and west. F, G, H, I, J, Fig. 1, show this gradual change, H
+being neutral longitudinally, but polarized transversely. If, in
+place of the rod, we take a small square soft iron plate and allow
+its molecules freedom under the sole influence of the earth's
+magnetism, then we invariably find the polarity in the direction of
+the magnetic dip, no matter in what position it be held, and a
+sphere of soft iron could only be polarized in a similar direction
+Thus we can never obtain complete external neutrality while the
+molecules have freedom and do not form an internal closed circle of
+mutual attractions; and whatever theory we may adopt as to the
+cause of polarity in the molecule, such as Coulomb's, Poisson's,
+Ampere's, or Weber's, there can exist no haphazard arrangement in
+perfectly soft iron, as long as it is free from all external causes
+except the influence of the earth; consequently these theories are
+wrong in one of their most essential parts.</p>
+
+<p>We can, however, produce a closed circle of mutual attraction in
+iron and steel, producing complete neutrality as long as the
+structure is not destroyed by some stronger external directing
+influence.</p>
+
+<p>Oersted discovered that an external magnetic needle places
+itself perpendicular to an electric current; and we should expect
+that, if the molecules of an iron wire possessed inherent polarity
+and could rotate, a similar effect would take place in the interior
+of the wire to that observed by Oersted. Wiedermann first remarked
+this effect, and it has been known as circular magnetism. This
+circle, however, consists really in each molecule having placed
+itself perpendicular to the current, simply obeying Oersted's law,
+and thus forming a complete circle in which the mutual attractions
+of the molecules forming that circle are satisfied, as shown as C,
+Fig. 1. This wire becomes completely neutral, any previous
+symmetrical arrangement of polarity rotating to form its complete
+circle of attractions; and we can thus form in hard iron and steel
+a neutrality extremely difficult to break up or destroy. We have
+evident proof that this neutrality consists of a closed chain, or
+circle, as by torsion we can partially deflect them on either side;
+thus from a perfect externally neutral wire, producing either
+polarity, by simple mechanical angular displacement of the
+molecules, as by right or left handed torsion.</p>
+
+<p>If we magnetize a wire placed east and west, it will retain this
+polarity until freed by vibrations, as already remarked. If we pass
+an electric current through this magnetized wire, we can notice the
+gradual rotation of the molecules, and the formation of the
+circular neutrality. If we commence with a weak current, gradually
+increasing its strength, we can rotate them as slowly as may be
+desired. There is no sudden break or haphazard moment of
+neutrality: the movements to perfect zero are accomplished with
+perfect symmetry throughout.</p>
+
+<p>We can produce a more perfect and shorter circle of attractions
+by the superposition of magnetism, as at B, Fig. 1. If we magnetize
+a piece of steel or iron in a given direction with a strong
+magnetic directing power, the magnetism penetrates to a certain
+depth. If we slightly diminish the magnetizing power, and magnetize
+the rod in a contrary direction, we may reduce it to zero, by the
+superposition of an exterior magnetism upon one of a contrary name
+existing at a greater depth; and if we continue this operation,
+gradually diminishing the force at each reversal, we can easily
+superpose ten or more distinct symmetrical arrangements, and, as
+their mutual attractions are satisfied in a shorter circle than in
+that produced by electricity, it is extremely difficult to destroy
+this formation when once produced.</p>
+
+<p>The induction balance affords also some reasons for believing
+that the molecules not only form a closed circle of attractions, as
+at B, but that they can mutually react upon each other, so as to
+close a circle of attractions as a double molecule, as shown at A.
+The experimental evidence, however, is not sufficient to dwell on
+this point, as the neutrality obtained by superposition is somewhat
+similar in its external effects.</p>
+
+<p>We can produce a perfectly symmetrical closed circle of
+attractions of the nature of the neutrality of C, Fig. 3, by
+forming a steel wire into a closed circle, 10 centimeters in
+diameter, if this wire is well joined at its extremities by
+twisting and soldering. We can then magnetize this ring by slowly
+revolving it at the extremity of one pole of a strong permanent
+magnet; and, to avoid consequent poles at the part last touching
+the magnet, we should have a graduating wedge of wood, so that
+while revolving it may be gradually removed to greater distance.
+This wire will then contain no consequent points or external
+magnetism: it will be found perfectly neutral in all parts of its
+closed circle. Its neutrality is similar to C, Fig. 3; for if we
+cut this wire at any point we find extremely strong magnetic
+polarity, being magnetized by this method to saturation, and having
+retained (which it will indefinitely) its circle of attractions
+complete.</p>
+
+<p>I have already shown that soft iron, when its molecules are
+allowed perfect freedom by vibration, invariably takes the polarity
+of the external directing influence, such as that of the earth, and
+it does so even with greater freedom under the influence of heat.
+Manufacturers of electro-magnets for telegraphic instruments are
+very careful to choose the softest iron and thoroughly anneal it;
+but very few recognize the importance as regards the position of
+the iron while annealing it under the earth's directing influence.
+The fact, however, has long since been observed.</p>
+
+<p>Dr. Hooke, 1684, remarked that steel or iron was magnetized when
+heated to redness and placed in the magnetic meridian. I have
+slightly varied this experiment by heating to redness three similar
+steel bars, two of which had been previously magnetized to
+saturation, and placed separately with contrary polarity as regards
+each other, the third being neutral. Upon cooling, these three bars
+were found to have identical and similar polarity. Thus the
+molecules of this most rigid material, cast steel, had become free
+at red heat, and rotated under the earth's magnetic influence,
+giving exactly the same force on each; consequently the previous
+magnetization of two of these bars had neither augmented nor
+weakened the inherent polarity of their molecules. Soft iron gave
+under these conditions by far the greatest force, its inherent
+polarity being greater than that of steel.</p>
+
+<p>I have made numerous other experiments bearing upon the question
+of neutrality, but they all confirm those I have cited, which I
+consider afford ample evidence of the symmetrical arrangement of
+neutrality.</p>
+
+<h3>SUPERPOSED MAGNETISM.</h3>
+
+<p>Knowing that by torsion we can rotate or diminish magnetism, I
+was anxious to obtain by its means a complete rotation from north
+polarity to neutrality, and from neutrality to south polarity, or
+to completely reverse magnetic polarity by a slight right or left
+torsion.</p>
+
+<p>I have succeeded in doing this, and in obtaining strong reversal
+of polarities, by superposing one polarity given while the rod is
+under a right elastic torsion, with another of the opposite
+polarity given under a left elastic torsion, the neutral point then
+being reached when the rod is free from torsion. The rod should be
+very strongly magnetized under its first or right-hand torsion, so
+that its interior molecules are rotated, or, in other words,
+magnetized to saturation; the second magnetization in the contrary
+sense and torsion should be feebler, so as only to magnetize the
+surface, or not more than one-half its depth; these can be easily
+adjusted to each other so as to form a complete polar balance of
+force, producing, when the rod is free from torsion, the neutrality
+as shown at B, Fig. 1.</p>
+
+<p>The apparatus needed is simply a good compound horseshoe
+permanent magnet, 15 centimeters long, having six or more plates,
+giving it a total thickness of at least 3 centimeters. We need a
+sufficiently powerful magnet, as I find that I obtain a more equal
+distribution of magnetism upon a rod or strip of iron by drawing it
+lengthwise over a single pole in a direction from that pole, as
+shown in Fig. 2; we can then obtain saturation by repeated
+drawings, keeping the same molecular symmetry in each
+experiment.</p>
+
+<p>In order to apply a slight elastic torsion when magnetizing rods
+or wires, I have found it convenient to attach two brass clamp keys
+to the extremities of the rods, or simply turn the ends at right
+angles, as shown in the following diagram, by which means we can
+apply an elastic twist or torsion while drawing the rod over the
+pole of the permanent magnet. We can thus superpose several and
+opposite symmetrical structures, producing a polar north or south
+as desired, greatly in excess of that possible under a single or
+even double magnetization, and by carefully adjusting the
+proportion of opposing magnetisms, so that both polarities have the
+same external force, the rod will be at perfect external neutrality
+when free from torsion.</p>
+
+<p class="ctr"><img src="images/2b.png" alt="FIG. 2."></p>
+
+<p class="ctr">FIG. 2.</p>
+
+<p>If we now hold one end of this rod at a few centimeters distance
+from a magnetic directive needle, we find it perfectly neutral when
+free of torsion, but the slightest torsion right or left at once
+produces violent repulsion or attraction, according to the
+direction of the torsion given to the rod, the iron rod or strips
+of hoop-iron which I use for this experiment being able, when at
+the distance of five centimeters from the needle, to turn it
+instantly 90&deg; on either side of its zero.</p>
+
+<p>The external neutrality that we can now produce at will is
+absolute, as it crosses the line of two contrary polarities, being
+similar to the zero of my electric sonometer, whose zero is
+obtained by the crossing of two opposing electric forces.</p>
+
+<p>This rod of iron retains its peculiar powers of reversal in a
+remarkable degree, a condition quite different to that of ordinary
+magnetization, for the same rod, when magnetized to saturation
+under a single ordinary magnetism, loses its evident magnetism by a
+few elastic torsions, as I have already shown; but when it is
+magnetized under the double torsion with its superposed magnetism,
+it is but slightly reduced by variations or numerous torsions, and
+I have found it impossible to render this rod again free from its
+double polar effects, except by strongly remagnetizing it to
+saturation with a single polarity. The superposed magnetism then
+becomes a single directive force, and we can then by a few
+vibrations or torsions reduce the rod to its ordinary
+condition.</p>
+
+<p>The effects of superposed magnetism and its double polarity I
+have produced in a variety of ways, such as by the electro-magnetic
+influence of coils, or in very soft iron simply by the directive
+influence of the earth's magnetism, reversing the rod and torsions
+when held in the magnetic meridian, these rods when placed magnetic
+west showing distinctly the double polar effects.</p>
+
+<p>It is remarkable, also, that we are enabled to superpose and
+obtain the maximum effects on thin strips of iron from &frac14; to
+&frac12; millimeter in thickness, while in thicker rods we have far
+less effect, being masked by the comparatively neutral state of the
+interior, the exterior molecules then reaching upon those of the
+interior, allowing them to complete in the interior their circle of
+attractions.</p>
+
+<p>I was anxious to obtain wires which would preserve this
+structure against the destructive influence of torsion and
+vibrations, so that I could constantly employ the same wires
+without the comparatively long and tedious process of preparation.
+Soft iron soon loses the structure, or becomes enfeebled, under the
+constant to and fro torsions requisite where we desire a constant
+change of polarity, as described later in the magnetic bells. Hard
+steel preserves its structure, but its molecular rigidity is so
+great that we obtain but mere traces of any change of polarity by
+torsion. I have found, however, that fine cast drill steel,
+untempered, of the kind employed by watchmakers, is most suitable;
+these are generally sold in straight lengths of 30 centimeters.
+Wires 1 millimeter in diameter should be used, and when it is
+desired to increase the force, several of these wires, say, nine or
+ten, should be formed into a single rod or bunch.</p>
+
+<p>The wire as sold is too rigid to give its maximum of molecular
+rotation effect. We must therefore give it two entire turns or
+twists to the right, and strongly magnetize it on the north pole of
+the magnet while under torsion. We must again repeat this operation
+in the contrary direction, after restoring the wire to its previous
+position, giving now two entire turns to the left and magnetizing
+it on the south pole. On restoring the wire to its original place,
+it will be extremely flexible, and we may now superpose several
+contrary polarities under contrary torsions, as already
+described.</p>
+
+<p>The power of these wires, if properly prepared, is most
+remarkable, being able to reverse their polarity under torsion, as
+if they were completely saturated; and they preserve this power
+indefinitely if not touched by a magnet. It would be extremely
+difficult to explain the action of the rotative effects obtained in
+these wires under any other theory than that which I have advanced;
+and the absolute external neutrality that we obtain in them when
+the polarities are changing, we know, from their structure, to be
+perfectly symmetrical.</p>
+
+<p>I was anxious to show, upon the reading of this paper, some
+mechanical movement produced by molecular rotation, consequently I
+have arranged two bells that are struck alternately by a polarized
+armature put in motion by the double polarized rod I have already
+described, but whose position, at three centimeters distant from
+the axis of the armature, remains invariably the same. The magnetic
+armature consists of a horizontal light steel bar suspended by its
+central axle; the bells are thin wine glasses, giving a clear
+musical tone loud enough, by the force with which they are struck,
+to be clearly heard at some distance. The armature does not strike
+these alternately by a pendulous movement, as we may easily strike
+only one continuously, the friction and inertia of the armature
+causing its movements to be perfectly dead beat when not driven by
+some external force, and it is kept in its zero position by a
+strong directive magnet placed beneath its axle.</p>
+
+<p>The mechanical power obtained is extremely evident, and is
+sufficient to put the sluggish armature in rapid motion, striking
+the bells six times per second, and with a power sufficient to
+produce tones loud enough to be clearly heard in all parts of the
+hall of the Society. As this is the first direct transformation of
+molecular motion into mechanical movement, I am happy to show it on
+this occasion.</p>
+
+<p>There is nothing remarkable in the bells themselves, as they
+evidently could be rung if the armature was surrounded by a coil,
+and worked by an electric current from a few cells. The marvel,
+however, is in the small steel superposed magnetic wire producing
+by slight elastic torsions from a single wire, one millimeter in
+diameter, sufficient force from mere molecular rotation to entirely
+replace the coil and electric current.</p>
+
+<h3>ELASTIC NATURE OF THE ETHER SURROUNDING THE MAGNETIC
+MOLECULES.</h3>
+
+<p>During these researches I have remarked a peculiar property of
+magnetism, viz., that not only can the molecules be rotated through
+any degree of arc to its maximum, or saturation, but that, while it
+requires a comparatively strong force to overcome its rigidity or
+resistance to rotation, it has a small field of its own through
+which it can move with excessive freedom, trembling, vibrating, or
+rotating through a small degree with infinitely less force than
+would be required to rotate it permanently on either side. This
+property is so marked and general that we can observe it without
+any special iron or apparatus.</p>
+
+<p>Let us take a flat rod of ordinary hoop iron, 30 or more
+centimeters in length. If, while holding this vertically, we give
+freedom to its molecules by torsions, vibrations, or, better still,
+by a few blows with a wooden mallet upon its upper extremity, we
+find, as is well known, that its lower portion is strongly north,
+and its upper south. If we reverse this rod, we now find it neutral
+at both extremities. We might here suppose that the earth's
+directing force had rotated the molecules to zero, or transversely,
+which in reality it has done, but only to the limit of their
+comparatively free motion; for if we reverse the rod to its
+original position, its previous strong polarity reappears at both
+extremities, thus the central point of its free motion is inclined
+to the rod, giving by its free motion great symmetrical inclination
+and polarity in one direction, but when reversed the inclination is
+reduced to zero.</p>
+
+<p>In Fig. 3, D shows the bar of iron when strongly polarized by
+earth's magnetic influence, under vibrations, with a sufficient
+force to have rotated its elastic center of action. C shows the
+same bar with its molecules at zero, or transversal, the directing
+force of earth being insufficient without the aid of mechanical
+vibration to allow them to change. The dotted lines of D suppose
+the molecule to be in the center of its free motion, while at C the
+molecules have rotated to zero, as they are prevented from further
+rotation by being at the extreme end of its free motion.</p>
+
+<p>If, now, we hold the rod vertically, as at C, giving neutrality,
+and give a few slight blows with a wooden mallet to its upper
+extremity, we can give just the amount of freedom required for it
+to produce evident polarity, and we then have equal polarity, no
+matter which end of the bar is below, the center of its free
+rotation here being perfect, and the rod perfectly neutral
+longitudinally when held east and west. If, on the other hand, we
+have given too much freedom by repeated blows of the mallet, its
+center of free motion becomes inclined with the molecules, and we
+arrive at its first condition, except that it is now neutral at D
+and polarized at C. From this it will be seen that we can adjust
+this center of action, by vibrations or blows, to any point within
+the external directing influence.</p>
+
+<p class="ctr"><img src="images/3a.png" alt="FIG. 3."></p>
+
+<p class="ctr">FIG. 3.</p>
+
+<p>We can perceive this effect of free rotation in a limited space
+in all classes of iron and steel, being far greater in soft Swedish
+iron than in hard iron or steel. A similar phenomenon takes place
+if we magnetize a rod held vertically in the direction of earth's
+magnetism. It then gives greater polarity than if magnetized east
+or west, and if magnetized in a contrary sense to earth's
+magnetism, it is very feebly magnetized, or, if the rod is
+perfectly soft, it becomes neutral after strong magnetization. This
+property of comparative freedom, and the rotation of its center of
+action, can be demonstrated in a variety of ways. One remarkable
+example of it consists in the telephone. All those who are
+thoroughly acquainted with electro-magnetism, and know that it
+requires measurable time to charge an electro-magnet to saturation
+(about one-fifteenth of a second for those employed in telegraphy),
+were surprised that the telephone could follow the slightest change
+of timbre, requiring almost innumerable changes of force per
+second. I believe the free rotation I have spoken of through a
+limited range explains its remarkable sensitiveness and rapidity of
+action, and, according to this view, it would also explain why loud
+sounding telephones can never repeat all the delicacy of timbre
+that is easily done with those only requiring a force comprised in
+the critical limits of its free rotation. This property, I have
+found, has a distinct critical value for each class of iron, and I
+propose soon to publish researches upon the molecular construction
+of steel and iron, in which I have made use of this very property
+as a guide to the quality of the iron itself.</p>
+
+<p>The elastic rotation (in a limited space) of a molecule differs
+entirely from that known as mechanical elasticity. In perfectly
+soft iron we have feeble <i>mechanical</i> elasticity, while in
+tempered steel we have that elasticity at its maximum. The contrary
+takes place as regards <i>molecular</i> elasticity. In tempered
+steel the molecules are extremely rigid, and in soft iron its
+molecular elasticity is at its maximum. Its free motion differs
+entirely from that given it by torsion or stress. We may assume
+that a molecule is surrounded by continuous ether, more of the
+nature of a jelly than of that of a gas; in such a medium a
+molecule might freely vibrate through small arcs, but a rotation
+extending beyond its critical limit would involve a much greater
+expenditure of force.</p>
+
+<p>The discovery of this comparatively free rotation of molecules,
+by means of which, as I have shown, we can (without in any degree
+disturbing the external mechanical elasticity of the mass) change
+the axes of their free motion in any direction desired, has led me
+into a series of researches which have only indirectly any relation
+with the theory of magnetism. I was extremely desirous, however, of
+finding an experimental evidence which in itself should demonstrate
+all portions of the theory, and the following experiment, I
+believe, answers this purpose.</p>
+
+<p>Let us take a square soft iron rod, five millimeters in diameter
+by thirty or more centimeters in length, and force the molecules,
+by aid of blows from a wooden mallet, as previously described, to
+have their centers of free motion in one direction; the rod will
+(as already shown) have polarity at both ends, when held
+vertically; but if reversed, both ends become completely
+neutral.</p>
+
+<p>If now we turn the rod to its first position, in which it shows
+strong polarity, and magnetize it while held vertically, by drawing
+the north pole of a sufficiently powerful permanent magnet from its
+upper to its lower extremity, we find that this rod, instead of
+having south polarity at its lower portion, as we should expect
+from the direction of the magnetization, is completely neutral at
+both extremities, but if we reverse the rod its fullest free powers
+of magnetization now appear in the position where it was previously
+neutral. Thus, by magnetization, we have completely rotated its
+free path of action, and find that we can rotate this path as
+desired in any direction by the application of a sufficient
+directing power.</p>
+
+<p>If we take a rod as described, with its polarities evident when
+held vertically, and its neutrality also evident when its ends are
+reversed in the same magnetic field, we find that its polarity is
+equal at both ends, and that it is in every way symmetrical with a
+perfect magnet. If we <i>gradually</i> reverse the ends and take
+observations of its condition through each degree of arc passed
+over, we find an equal symmetrical diminution of evident external
+polarity, until we arrive at neutrality, when it has no external
+trace of inherent polarity; but its inherent polarity at once
+becomes evident by a simple return to its former position. Thus the
+rod has passed through all the changes from polarity to neutrality,
+and from neutrality to polarity, and these changes have taken place
+with complete symmetry.</p>
+
+<p>The limits of this paper do not allow me to speak of the
+numerous theoretical evidences as shown by the use of my induction
+balance. I believe, however, that I have cited already experimental
+evidences to show that what has been attributed to coercive force
+is really due to molecular freedom or rigidity; that in inherent
+molecular polarity we have a fact admitted by Coulomb, Poisson,
+Ampere, De la Rive, Weber, Du Moncel, Wiedermann, and Maxwell; and
+that we have also experimental evidence of molecular rotation and
+of the symmetrical character of polarity and neutrality.</p>
+
+<p>The experiments which I have brought forward in this paper, in
+addition to those mentioned in my paper read before the Royal
+Society, will, I hope, justify me in having advanced a theory of
+magnetism which I believe in every portion allows at least
+experimental evidences of its probable truth.</p>
+
+<hr>
+<a name="4"></a>
+
+<h2>THE WESTINGHOUSE BRAKE.</h2>
+
+<p>Below we illustrate the main parts of the Westinghouse brake as
+applied to a vehicle. The supplementary reservoir brake cylinder
+and triple valve are shown in position, and as fitted upon the
+engine, tender, and each vehicle of the train. Air compressed by a
+pump on the locomotive to, say, 70 lb. or 80 lb. to the square inch
+fills the main reservoir on the engine, and flowing through the
+driver's brake valve and main pipe, also charges the supplementary
+reservoirs throughout the train. When a train is running, uniform
+air pressure exists throughout its length--that is to say, the main
+reservoir on the engine, the pipe from end to end of train, the
+triple valves and supplementary reservoirs on each vehicle, are all
+charged ready for work, the brake cylinders being empty and the
+brakes off. The essential principle of the system is, that
+maintaining the pressure keeps the brakes off, but letting the air
+escape from the brake pipe, purposely or accidentally, instantly
+applies them. It follows, therefore, that the brake may be applied
+by the driver or any of the guards, or if necessary by a passenger,
+by the separation of a coupling, or the failure or injury to a
+vital part of the apparatus, whether due to an accident to the
+train or to the brake; and as the brake on each vehicle is complete
+in itself and independent, should the apparatus on any one carriage
+be torn off, the brake will nevertheless remain applied for almost
+any length of time upon the rest of the train.</p>
+
+<p>The triple valve, as will be seen, is simply a small piston,
+carrying with it a slide valve, which can be moved up or down by
+increasing or decreasing the pressure in the brake pipe. As soon as
+the air from the main reservoir is turned into the brake pipe, by
+means of the driver's valve, the piston is pushed up into the
+position shown, and air is allowed to feed past it through a small
+groove into the reservoir. At the same time the slide valve covers
+the port to the brake cylinder, and is in such a position that the
+air from the latter may exhaust into the atmosphere. The piston has
+now the same air pressure on both sides; but if the pressure in the
+brake pipe is decreased, the piston and slide valve are forced
+down, thereby uncovering the passage through which air from the
+reservoir flows into the brake cylinder between the pistons, thus
+applying the brakes. The brake pipe is shut off as soon as the
+triple valve piston passes the groove. To release the brakes, the
+piston and slide valves are again moved into the position shown, by
+the driver turning air from the main reservoir into the brake pipe.
+The air in the brake cylinder escapes, and at the same time the
+reservoir is recharged.</p>
+
+<p class="ctr"><a href="images/3b.png"><img src=
+"images/3b_th.jpg" alt="THE WESTINGHOUSE BRAKE."></a></p>
+
+<p class="ctr">THE WESTINGHOUSE BRAKE.</p>
+
+<p>Fig. 2 represents two Westinghouse couplings connected. They are
+exactly alike in all respects, and an air tight joint is made
+between them by means of the rubber washers. These couplings are so
+constructed that the air pressure within serves to tighten the
+joint, and they may be pushed apart by the separation of the train
+without any injury. Such an occurrence as already explained leads
+to the instant application of all the brakes on the train.</p>
+
+<p>By closing the small tap shown between the brake pipe and the
+triple valve, the brake on any vehicle, if out of order, can be cut
+out of the system. A release valve is also placed upon each
+cylinder as shown, so that in the event of the brakes being applied
+by the separation of the train, or the breaking of a pipe, or when
+the locomotive is not attached, they can be released by allowing
+the air to escape from each brake cylinder direct. The Westinghouse
+brake has been made to comply thoroughly with the Board of Trade
+conditions. Many people, however, do not appear to understand all
+that is involved in the second requirement, which runs as follows:
+In case of accident, to be instantaneously self-acting. This
+clearly implies: First, that accident to the train, or to any of
+its vehicles, shall cause the instant application of the brakes to
+the wheels of every vehicle in the train without the intervention
+of the driver or guards. Secondly, that any injury, however caused,
+which may impair the efficiency of the brake apparatus, shall, in
+like manner, lead to the instant application of all the brakes on
+the train. It then becomes impossible for a driver to run his train
+in ignorance of any defect in his brake apparatus because such
+defect at once discloses itself by applying the brakes and stopping
+the train. Thirdly, that each vehicle shall carry its own brake
+power in such a manner that the destruction of the brake apparatus
+on one or more of the carriages shall not affect the efficiency of
+the brakes upon any of the others. No continuous brake which does
+not comply with such conditions can ever be satisfactory.--<i>The
+Engineer</i>.</p>
+
+<hr>
+<a name="5"></a>
+
+<h2>HYDRAULIC ELEVATORS AND MOTORS.</h2>
+
+<p>[Footnote: Read at Buffalo meeting of the American Water-Works
+Association May 15,1883.]</p>
+
+<h3>By B. F. JONES, Kansas City.</h3>
+
+<p>What I have to say in relation to elevators and motors will be
+mostly in regard to questions that their uses necessarily bring up
+for settlement at the water-works office; also to show how I have
+been able in a measure to overcome some of the many difficulties
+that have presented themselves, as well as to discuss and seek
+information as to the best way of meeting others that still have to
+be dealt with. At the outset, therefore, let me state that I am not
+an hydraulic engineer, nor have I sufficient mechanical knowledge
+to undertake the discussion of the construction or relative merits
+of either elevators or motors. This I would respectfully suggest as
+a very proper and interesting topic for a paper at some future
+meeting by some one of the many, eminent engineers of this
+association.</p>
+
+<p>The water-works of Kansas City is comparatively young, and my
+experience only dates back six or seven years, or shortly after its
+completion. At this time it was deemed advisable on account of the
+probable large revenue to be derived from their use, to encourage
+the putting in of hydraulic elevators by low water rates. With this
+end in view a number of contracts were made for their supply at low
+special rates for a period of years, and our minimum meter rate was
+charged in all other cases, regardless of the quantity of water
+consumed. In most instances these special rates have since been
+found much too low, parties paying in this way being exceedingly
+extravagant in the use of elevators. However, the object sought was
+obtained, and now they are very extensively used. In fact, so much
+has their use increased, that the question is no longer how to
+encourage their more general adoption, but how to properly govern
+those that must be supplied. A present our works furnish power to
+about 15 passenger and 80 freight elevators, and the number is
+rapidly increasing.</p>
+
+<p>Before going into details it seems proper to give at least a
+brief description of our water-works, as my observations are to a
+great extent local.</p>
+
+<p>On account of the peculiar topography of Kansas City (and I
+believe it has more topography to the square foot than any city in
+the country) two systems of water supply have been provided, the
+high ground being supplied by direct pumping, and a pressure of
+about 90 pounds maintained in the business portion, and the lower
+part of the city being supplied by gravity, from a reservoir at an
+elevation of 210 feet, thus giving the business portions of the
+city, on high and low ground, about the same pressure. By an
+arrangement of valves, a combination of these two systems is
+effected, so that the Holly machinery can furnish an increased fire
+pressure at a moment's notice, into either or both pipe systems.
+Thus at some points the pressure is extremely high during the
+progress of fires, causing difficulties that do not exist where the
+gravity system of works is used exclusively.</p>
+
+<p>Elevators have become an established institution, and in cities
+of any commercial importance are regarded as a necessity, hotels,
+jobbing houses, factories, and office buildings being considered as
+far behind the times when not thus provided, as a city without a
+water supply or a community without a "boom." The use of elevators
+has made it practicable and profitable to erect buildings twice as
+high as were formerly thought of. Perhaps some of the most notable
+examples of this are in New York city, where such structures as the
+Mills building, the buildings of the <i>Tribune, Evening Post</i>,
+and Western Union Telegraph Co.. tower high above the surrounding
+blocks, monuments of architecture, that without this modern
+invention would reflect little credit upon their designers. It is
+now found less labor to go to to the fifth, sixth, or even tenth
+floors of these great buildings than it was to reach the second or
+third, before their use. In these days, merchants can shoot a ton
+of goods to the top of their stores in less time than it would take
+to get breath for the old hoist or "Yo, heave O" arrangement.
+Thousands of dollars are sometimes expended on a single elevator,
+the cars are miniature parlors, and the mechanism has perhaps
+advanced to nearly the perfection of the modern steam engine. If
+then they have become such a firmly established institution, their
+bearing upon the water supply of cities is a subject to be
+carefully considered.</p>
+
+<p>As before intimated, there are many questions involved in the
+use of hydraulic elevators, that particularly concern towns
+supplied by direct pumping, and perhaps other places where the
+supply by gravity is somewhat limited. In a few larger cities
+supplied by ample reservoirs and mains, some of the difficulties
+suggested are not serious. Very little power is necessary to
+perform the actual work of lifting, with either steam or hydraulic
+elevators, but on account of the peculiar application of the power,
+and the great amount of friction to be overcome, a very
+considerable power has to be provided. It has been estimated, by
+good authorities, that not more than one-quarter of the power
+expended in most cases is really utilized.</p>
+
+<p>With all hydraulic elevators of which I have cognizance, as much
+water is required to raise the empty cars as though they were
+loaded to maximum capacity. Still, to be available for passenger
+purposes elevators must have capacity of upward of 2,500 pounds,
+particularly in hotels, where the cars are often arranged with
+separate compartments underneath for baggage. In general use it is
+exceptional that passenger elevators are fully loaded; on the
+contrary less than half a load is ordinarily carried, and for this
+reason it would appear that no actual benefit is derived from at
+least one-half of the water consumed. In this connection it has
+occurred to me that passenger elevators could be built at no great
+additional cost, with two cylinders, small and large, the two
+piston rods of which could be connected so as to both operate the
+same cable, either or both furnishing power, the smaller cylinder
+to be used for light loads, the larger for heavy work, and the two
+together for full capacity, this independent valve arrangement to
+be controlled by a separate cable running through the car. Whether
+this plan is practicable or not must be left to elevator
+manufacturers, but it seems to me that with the Hale-Otis elevator
+for instance (which is conceded to be one of the best) it could
+easily be accomplished. Certainly some such arrangement would
+effect a great saving of water, and perhaps bring water bills to a
+point that this class of consumers could afford to pay.</p>
+
+<p>Hydraulic elevators where the water is used over and over again,
+by being pumped from the discharge to elevated tanks, cut little or
+no figure in connection with a city's water supply. When fuel,
+first cost, attendance of an engineer, and the poor economy of the
+class of pumps usually employed to perform this work are
+considered, the cost of operating such elevators is greatly in
+excess of what it would be if power were supplied direct from water
+mains, at any reasonable rate. The following remarks will then
+relate almost exclusively to that class of hydraulic elevators
+supplied with power directly from the water mains.</p>
+
+<p>Let us now consider whether they are a desirable source of
+revenue, and in this my knowledge does not exceed my actual
+experience. Few elevator users appreciate the great quantity of
+water their elevators consume. Even in Kansas City, where, on
+account of the high pressure carried, much smaller cylinders than
+ordinarily are required, it is found that passenger elevators
+frequently consume 500,000 to 800,000 gallons of water per month,
+which will make a very considerable bill, at the most liberal
+rates. I have, therefore, concluded that the quantity of water was
+so large that, unless liberal concessions were made, it would be a
+hardship to consumers to pay their water bills, and have therefore
+made a special schedule, according to quantity, for elevators and
+motors, these rates standing below our regular meter rates, and
+running to the lowest point at which we think we can afford to
+furnish the water. This schedule brings the rate below what we
+would receive for almost any other legitimate use of water; and, in
+view of our rapidly increasing consumption, and the probability of
+soon having to increase all our facilities, it is an open question
+whether this will continue a desirable source of revenue.</p>
+
+<p>In Kansas City we have elevators of various manufacture: the
+Hale-Otis, Ready, Smith &amp; Beggs, O'Keefe, Kennedy, and perhaps
+others, each having its peculiarities, but alike demanding large
+openings in the mains for supply. These large openings are
+objectionable features with any waterworks, and especially so with
+direct pumping. An occurrence from this cause, about two years ago,
+is an experience I should not like repeated, but is one that might
+occur whenever the pressure in the mains is depended upon to throw
+fire streams. In this instance a large block of buildings occupied
+by jobbing houses and having three elevators was burned down, and
+the elevator connections broken early in the fire, allowing the
+water to pour into the cellars in the volume of about twelve
+ordinary fire streams. This immense quantity of water had to be
+supplied from a 6-inch main, fed from only one end, which left
+little pressure available for fighting the fire, and as a matter of
+course failure to subdue the fire promptly was attributed to the
+water-works. We have since had up hill work to restore confidence
+as to our ability to throw fire streams, although we have
+demonstrated the fact hundreds of times since.</p>
+
+<p>From this time we have been gradually cutting down on the size
+of openings for elevator supply, but under protest of the elevator
+agents, who have always claimed that they should be allowed at
+least a 4-inch opening in the mains, until we have found that under
+80 to 90 pounds pressure two to four 1-inch taps will answer the
+purpose, provided the water pipes are of ample size.</p>
+
+<p>The "water hammer" produced by the quick acting valves of
+elevators has always been objectionable, both in its effect at the
+pumping-house and upon water mains and connections. To obviate
+this, Engineer G. W. Pearson has suggested the use of very large
+air chambers on the elevator supply, and still smaller openings in
+the mains, his theory being that the air chambers would not only
+materially decrease the concussion or "water hammer," but that they
+would also act as accumulators of power (or water under pressure)
+to be drawn from at each trip of the elevator, and replaced when it
+was at rest. This plan I have never seen put to actual test, but
+believe it to be entirely practicable, and that we will have to
+ultimately adopt it.</p>
+
+<p>All things considered, the plan of operating elevators from
+tanks in the top of buildings, supplied by a small pipe connected
+with the water-mains and arranged with a float valve to keep the
+tank filled, I believe to be the best manner of supply, except for
+the great additional cost of putting up such apparatus. By this
+arrangement the amount of water consumed is no less, in fact it
+would ordinarily be more than with a direct connection with the
+mains, but it has the advantage of taking the water in the least
+objectionable manner. Still, if this mode of supply were generally
+enforced, the large first cost, an additional expense of operating,
+would undoubtedly deter many from using elevators.</p>
+
+<p>Another evil in connection with the use of elevators, and which
+no doubt is common, is the habit many parties have of keeping a key
+or wrench to turn on and off the water at the curb. This we have
+sought to remedy by embracing in our plumbers' rules the following:
+"All elevator connections in addition to the curb stop for the use
+of the Water Company must be provided with another valve where the
+pipe first enters the building for the use of occupants of the
+building." Without this extra valve it was found almost impossible
+to keep parties from using the curb valve. In most cases the
+persons were perfectly responsible, and as there was no intent to
+defraud the company by the act, they would claim this privilege as
+a precaution against the pipes bursting or freezing. This practice
+was very generally carried on, and was the direct cause in at least
+two cases of very serious damage. In the instances referred to, the
+pipes burst between the elevator and the area wall of buildings,
+and the valves outside had become so worn from frequent use that
+they would not operate, allowing the water to literally deluge the
+basements before the water main could be turned off.</p>
+
+<p>One of the greatest causes of waste from elevators is the
+wearing out of the piston packing, this being particularly
+troublesome in most of the Western cities, where the water supplied
+is to a large extent from turbid streams, carrying more or less
+fine sand or "grit," which cuts out the packing of the pistons very
+rapidly. The only practicable remedy for this is close inspection,
+to see that the pistons do not allow water to pass, a fact that can
+readily be determined from the noise made in the cylinder when the
+elevator is in motion going upward.</p>
+
+<p>I have reserved one of the most annoying features of elevator
+supply for the last, hoping to work myself into a mood to do the
+subject justice, but doubt if it can be done in language proper to
+use before this dignified body. I remember on one occasion the
+mayor of our city, in discussing a job of plumbing, said that it
+seemed to him "that even a plumber ought to know something about
+plumbing." Now it would seem that even elevator agents ought to
+know something about elevators, but from the following incident,
+which is but one of many, I am led to believe that they are not
+infallible to say the least. Only a short time since, one of these
+very reliable (?) agents reported at our office that he had just
+attached a new indicator to the elevator of a leading hotel. He was
+asked: "What does it register?" and promptly replied, "Cubic feet."
+In this case our inspector had already made an examination, and had
+correctly reported as follows: "Hale elevator; indicator started at
+zero February 28; internal diameter of cylinder, 12 inches; travel
+of piston for complete trip 30&frac14; feet; indicator registers
+for complete trip, 4."</p>
+
+<p>When it is understood that we had for a long time been assuming
+that elevator agents knew about all there was to know on the
+subject, a comparison of statements of this agent and our inspector
+is somewhat startling. Now let us see what the difference amounted
+to: At the end of the month the indicator had registered 12,994;
+calling it cubic feet, this register would equal 97,195 gallons.
+According to our inspector, this same register would equal 578,233
+gallons, or a difference of nearly half a million of gallons for a
+single month. Our experience with the agents in Kansas City has
+shown that they will, if allowed, put any kind of an indicator on
+the most convenient point of any sort of an elevator, without the
+slightest regard as to what it was intended to indicate; then
+report it as registering cubic or lineal feet, whichever they find
+the indicator marked. On the same principle they could as well
+change the fulcrum of a Fairbanks scale, and then claim it weighed
+pounds correctly, because pounds were marked upon the bar. We have
+lately prepared a blank, upon which these agents are required to
+make a detailed report upon the completion of an elevator before
+the water will be turned on, which it is hoped will to some extent
+correct this trouble.</p>
+
+<p>I have come to regard an elevator indicator with a feeling of
+wonder. Some years ago, when the "planchette" first came out, I
+remember that it acquired quite a reputation as a particularly
+erratic piece of mechanism, but for real mystery and <i>innate
+cussedness</i>, on general principles, commend me to the indicator.
+Why, I have known an indicator after registering a nice water bill,
+to deliberately and without provocation commence taking it all off
+again, by going backward. This crab-like maneuver the agent readily
+explained by saying the "ratchet had turned over," but even he was
+unable to show us how to make the bills after these peculiar
+gyrations. I also find that it is quite a favorite amusement for
+indicators to stop entirely, like a balky horse, after which no
+amount of persuasion will bring them to a realizing sense of their
+duty.</p>
+
+<p>Even at the best, these indicators are very apt to get out of
+order, necessitating greater watchfulness in supplying elevators
+than for any other purpose for which water is furnished.</p>
+
+<p>Accidents in connection with the use of elevators are common
+throughout the country, and in Kansas City had, until within a
+short time, become of altogether too frequent occurrence. The great
+cause of this I believe to be due to the fact that the parties who
+usually operate elevators are the very ones who know least about
+them; the corrosion of pistons, crystallization and oxidation of
+cables, and many other disorders common to elevators, being matters
+they do not comprehend. The frequency and fatality of these
+accidents in Kansas City finally led the city authorities to
+appoint an Elevator Inspector, who is under heavy bond, and whose
+duty is to examine every elevator at least once a month, and to
+grant license to run only such as he deems in safe condition. Thus
+far since the establishment of this office we have had no serious
+accidents, which leads me to the belief that in most cases a
+monthly examination will discover in time the causes of many
+terrible casualties; also that it is not safe to operate elevators
+unless so inspected by some competent person.</p>
+
+<p>The hatchways of elevators in large buildings are points greatly
+feared by firemen. They well know that when a fire once reaches
+this shaft, it takes but a moment for it to be carried from floor
+to floor, until the building is soon past saving. Although this
+great danger is well known, it is the exception rather than the
+rule to provide elevators with fire-proof hatches. A properly
+constructed elevator should, it seems to me, be provided with
+hatches, or better still, built within brick fire-proof walls, with
+openings to be kept closed when not in use. In this way costly
+buildings, valuable merchandise, and many lives would be saved from
+fire every year.</p>
+
+<p>Although considerable has been said on the subject of elevators,
+I am aware that the ground has not been covered, and that
+difficulties have been pointed out more than remedies suggested.
+There is much yet to be brought out by the engineers, to whom the
+subject more properly belongs.</p>
+
+<p>In the mean time, although elevators claim many of the
+objectionable features in the business of water supply, most of
+them are not of a nature that should condemn their use; on the
+contrary, I hope that with the joining of our experience there will
+be an improvement in the methods of their supply. Inasmuch as they
+must be furnished with water, all that can be done is to adopt such
+rules and fix such rates as will compensate in some degree for
+their objectionable qualities.</p>
+
+<h3>WATER MOTORS.</h3>
+
+<p>My remarks on this subject I trust will be more to the have been
+point than they upon the questions already discussed. Certainly my
+ideas are more decided, so far at least as supplying water motors
+is concerned.</p>
+
+<p>In many respects I believe water motors furnish as nearly
+perfect power as it is possible to attain. A motor, for instance,
+properly connected and supplied by the even pressure from a
+reservoir is probably the most reliable and steady power known, not
+excepting the most improved and costly steam engines. The
+convenience and little attendance necessary in operating make them
+especially desirable for many purposes. Where only small power is
+required, or even where considerable power for only occasional use
+is desired, they are particularly well adapted, and can be driven
+at small expense. Even for greater power they possess advantages
+over steam engines which, to a considerable extent, compensate for
+the large water rates that ought to be paid for their supply. These
+advantages are in the first cost of a motor, as compared with a
+steam engine, the saving in attendance and fuel, the convenience
+and cleanliness, and in some cases a saving in insurance by reason
+of their being no fire risks attendant upon its use. At just what
+point steam becomes preferable, however, is a question depending
+considerably upon water rates, but to some extent on other
+circumstances, leaving it largely a question of judgment. As with
+elevators, there are difficulties involved in their supply that
+unless carefully guarded make water motors anything but a desirable
+source of revenue. How often is the argument advanced: "Why, I only
+use water for a quarter of an inch jet!" Showing how little people
+who use motors or elevators or fountains realize the quantity of
+water they consume. This class of consumers may be placed on one
+footing, to wit, a class who, in spite of the fact that they are
+supplied with water for much less than any other, feel that they
+are imposed upon, and cannot be made to think otherwise.</p>
+
+<p>Though not as large as for elevator supply, water motors require
+liberal openings in the mains, and frequently the fault of having
+too small supply pipes is sought to be remedied by openings in the
+water mains much larger than needful. A table prepared by an
+engineer who had given the matter study, or by some motor
+manufacturer, showing the size of taps, or openings, for the proper
+supply of motors, with the various jets, under different pressures,
+would be of general use to water-works people. In order to use
+water to the best advantage, the full pressure in the main, so far
+as practicable, should be had at the jet, but in order to
+accomplish this it is not necessary to use as large taps as are
+ordinarily demanded, but to provide supply pipes of sufficient
+capacity to deliver the water to the point of discharge with the
+least possible friction. Lately this theory has been put in
+practice to some extent by us, and the result has shown that in
+this manner we are able to supply motors through smaller taps than
+beforehand with as satisfactory results.</p>
+
+<p>It is a general practice throughout the country to make annual
+or monthly rates for water motors, and from my observation I
+believe I can safely venture the assertion that in three-quarters
+of the cases the rates charged will not equal 50 per cent. of the
+lowest meter rates in force in these places. Although the Kansas
+City Water-Works has not perhaps been generally accorded the
+reputation of being the most liberal "monopoly" in the country,
+still I have had occasion at times to make some such claims as an
+inducement to its generous support. But with all its liberality, I
+am free to say that we cannot begin to meet the rates for motors
+that parties claim to have paid almost everywhere else.</p>
+
+<p>The St. Louis Water-Works, where the rates are substantially the
+same as in Kansas City, have been quoted as having the following
+motor rates, but whether correct or not my inquiries have failed to
+determine:</p>
+
+<p>"On the supposition that motors are to be used ten hours per day
+for 300 days per year, motors are assessed for--</p>
+
+<pre>
+  ___________________________________
+    1/4 inch jets | $120 per annum. |
+    3/8  "        |  198  "   "     |
+    1/2  "        |  300  "   "     |
+  ----------------+-----------------+
+</pre>
+
+<p>These rates based upon a charge of 50 cents per 1,000
+gallons."</p>
+
+<p>From Col. Flad's Report as Engineer of Public Works, May 1,
+1876, p.70, it is found that with 42 pounds pressure a &frac12;
+inch orifice will discharge 2,160 gallons per hour, 21,600 gallons
+in 10 hours, or 6,480,000 gallons in 300 days, which at 20 cents
+per 1,000 gallons would amount to $1,296, for which they assess the
+rate $300. From all of which I would conclude that there must be a
+lack of harmony somewhere between the engineering and office
+departments.</p>
+
+<p>I have made some estimates myself for water motors, basing rates
+upon the number of hours it was claimed the motors would be in use,
+and afterward supplied the same motors by meter measurement; in
+every case found that at least twice as much water was used as had
+been estimated. Although estimates were carefully made upon what
+was believed to be a reliable basis, these repeated similar results
+have led me to the conclusion that the only way to supply motors is
+to make it an object to the users of them to be economical. In
+other words, I believe the way to supply water motors is upon an
+estimate that they will run 24 hours per day and 365 days per year,
+or, more properly still, supply them only by meter measurement. At
+all events this is henceforth my policy; or, in other words, "on
+this rock I stand," believing it the only equitable way out of this
+difficulty.</p>
+
+<p>That class of motors or water engines operated by water pressure
+in close cylinders upon pistons as with steam in a steam engine, I
+believe could be easily supplied by measurement of water without a
+meter. This could be accomplished by the use of "revolution
+counters" or indicators, as the amount of water required per
+revolution could be readily determined, and when once computed the
+cylinders would measure out the water as accurately as a meter. The
+only objection to this plan is the expense of counters, which is
+considerable; and as to indicators, it may have been observed that
+I have little faith in their reliability. With cheap revolution
+this class of motors would be free from many of the objections
+raised in regard to motors generally.</p>
+
+<p>The practical conclusion that I would draw from a consideration
+of this subject is that the question of whether the supply of
+hydraulic elevators and motors is desirable in its effects upon the
+water supply is one that hinges so delicately upon their being
+carefully governed, connected, and restricted, that while on the
+one hand they may be made the source of large profit, and at the
+same time a public benefit, on the other hand, unless all the
+details of their supply be carefully guarded by the wisest rules
+and greatest watchfulness, their capacities for waste are so great
+and the rates charged necessarily so low, that they may become the
+greatest source of loss with which we have to contend. I therefore
+trust that this discussion will be continued until an interest is
+felt that will result in our all receiving much useful information
+upon two most important factors of our business.</p>
+
+<p>As this paper has been long for the information contained, I
+will close with the earnest wish that it may at least be of service
+in bringing these important but often neglected subjects to the
+attention of the thinking and intelligent body of men, of whom many
+have had much longer and more general experience in relation to
+these matters, and whose views when expressed will consequently be
+of more interest and have greater weight. Thus as a result may we
+all derive the benefit of whatever useful information there is to
+be gained by this annual interchange of experiences in the
+all-important business of public water supply.</p>
+
+<hr>
+<a name="6"></a>
+
+<h2>WATER SUPPLY OF SMALL TOWNS.</h2>
+
+<p>We now describe the new waterworks lately erected for supplying
+the town of Cougleton, Cheshire. The population is about 12,000,
+and the place is a seat of the silk manufacture. After various
+expensive plans had been suggested, in the year 1879 a complete
+scheme for the supply of the town with water was devised by the
+then borough surveyor, Mr. Wm. Blackshaw, now borough surveyor of
+Stafford. These we now illustrate above by a general drawing, and a
+separate drawing of the tower. With respect to the mechanical
+arrangements, the Corporation called in Mr. W. H. Thornbery, of
+Birmingham, consulting engineer, to decide on the best design of
+those submitted, and this, with modifications made by him, was
+carried out under his inspection. The water, for the supply by
+pumping, is obtained from springs situated at the foot of
+Crossledge Hill, about a mile from the town. It does not at present
+require filtering, but space enough has been allowed for the
+construction of duplicate filtering beds without in any way
+interfering with the present appliances. These filter beds are
+shown in our perspective illustration, but they are not yet built
+or required.</p>
+
+<p class="ctr"><a href="images/5a.png"><img src=
+"images/5a_th.jpg" alt=
+"WATER SUPPLY OF SMALL TOWNS--CONGLETON WATERWORKS."></a></p>
+
+<p class="ctr">WATER SUPPLY OF SMALL TOWNS--CONGLETON
+WATERWORKS.</p>
+
+<p>The waterworks are situated very near the springs, from which
+they are only separated by a road, under which the collecting pipes
+run. There are two circular collecting tanks of brickwork, two
+pumping wells, engine-house, boiler-house, chimney stack, and
+engine-driver's dwelling-house, all inclosed by a wall. On the top
+of Crossledge Hill is erected a circular brick water tower 35 ft.
+high to the underside of the service tank, which is of cast iron 30
+ft. internal diameter, supported on rolled girders. The tank is
+capable of containing 50,000 gallons of water, and it is provided
+with the usual rising and service mains, overflow and washout
+pipes. There is an arrangement for pumping direct into the mains in
+case the tank should require cleaning or repairing.</p>
+
+<p>The pumping machinery is in duplicate, and each set consists of
+a horizontal condensing engine, with cylinder 18 in. diameter,
+stroke 30 in., fitted with Meyer's expansion gear, governor,
+fly-wheel 12 ft. diameter, weighing 4 tons, jet condenser with a
+single acting vertical air pump, situated below the engine room
+floor, and between the end of the cylinder and the main pump. Each
+main pump is 10 in. diameter, horizontal, double-acting, worked by
+a prolongation backward of the piston-rod. The valves and seats are
+of gun metal, 8&frac12; in. diameter. The capacity is 350 gallons
+per minute, raised 206 ft. The air vessel is 21 in. internal
+diameter and 6 ft. high, and is fitted with a hand pump for
+renewing the supply of air if necessary. The rising main from the
+air vessel to the service tank is 9 in. diameter, and 307 yards
+long, laid up the steep slope of the hill on which the water tower
+is built. The boilers, two in number, are of the ordinary Cornish
+single-flued type, 5 ft. diameter by 18 ft. long, with flue 2 ft. 9
+in. diameter, with three Galloway tubes. They were made by Messrs.
+Hill &amp; Co., of Manchester. The engines and pumps were made by
+Mr. Albert Scragg, of Congleton, and the brick, stone, and
+builder's work was executed by Mr. Thomas Kirk. The waterworks were
+opened in the autumn of 1881, and since then have constantly
+afforded an abundant supply of water. There is also an independent
+gravitation system, also arranged by Mr. Blackshaw, for supplying
+an outlying part of the town. The cost of the works was exceedingly
+moderate, being not more than &pound;12,000, including the water
+mains for distribution.</p>
+
+<h3>PROCESS FOR SOFTENING HARD WATER.</h3>
+
+<p>The available water of many villages and small towns is that of
+the chalk beds, but it is invariably very hard, and should be
+softened. We have received so many inquiries respecting a simple
+means of carrying out Clarke's water-softening process, that the
+following description of a set of apparatus devised for this
+purpose by Messrs. Law and Chatterton, MM.I.C.E., may interest many
+besides those who contemplate the construction of small waterworks
+supplied by the chalk springs.</p>
+
+<p>The apparatus, as made in various sizes by Messrs. Bowes, Scott,
+and Read, of Broadway-chambers, Westminster, we illustrate by the
+accompanying engravings.</p>
+
+<p><i>Softening hard water</i>.--The disadvantages attending the
+use of hard water either for drinking purposes, steam generation,
+lavatory purposes, and for many manufacturing purposes, are well
+known, but as there are several methods of softening waters which
+are hard in different degrees by different substances, we may be
+pardoned if we here reproduce, for the convenience of some of our
+readers, a few passages from the sixth report of the River
+Pollution Commission, 1874, pages 21 and 201-16, which give some
+very valuable information on the relative merits of hard and soft
+waters in domestic and trade uses. "Some of the mineral substances
+which occur in solution in potable waters communicate to the latter
+the quality of hardness. Hard water decomposes soap, and cannot be
+efficiently used for washing. The chief hardening ingredients are
+salts of lime and magnesia. In the decomposition of soap these
+salts form curdy and insoluble compounds containing the fatty acids
+of the soap and the lime and magnesia of the salts. So long as this
+decomposition goes on the soap is useless as a detergent, and it is
+only after all the lime and magnesia salts have been decomposed at
+the expense of the soap, that the latter begins to exert a useful
+effect. As soon as this is the case, however, the slightest further
+addition of soap produces a lather when the water is agitated, but
+this lather is again destroyed by the addition of a further
+quantity of hard water. Thus the addition of hard water to a
+solution of soap, or the converse of this operation, causes the
+production of the insoluble curdy matter before mentioned. These
+facts render intelligible the process of washing the skin with soap
+and hard water. The skin is first wetted with the water and then
+soap is applied; the latter decomposes the hardening salts
+contained in the small quantity of water with which the skin is
+covered, and there is then formed a strong solution of soap which
+penetrates into the pores, and now the lather and impurities which
+it has imbibed require to be removed from the skin by wiping the
+lather off with a towel or by rinsing it away with water. In the
+former case the pores of the skin are left filled with soap
+solution; in the latter they become clogged with the greasy, curdy
+matter which results from the action of the hard water upon the
+soap solution which had previously gained possession of the pores
+of the cuticle. As the latter process of removing the lather is the
+one universally adopted, the operation of washing with soap and
+hard water is analogous to that used by the dyer and calico printer
+for fixing pigments in calico, woolen, or silk tissues. The pores
+of the skin are filled with insoluble greasy and curdy salts of the
+fatty acids contained in the soap, and it is only because the
+insoluble pigment produced is white, or nearly so, that so
+repulsive an operation is tolerated. To those, however, who have
+been accustomed to wash in soft water, the abnormal condition of
+skin thus induced is for a long time extremely unpleasant.</p>
+
+<p>Of the hardening salts present in potable water, carbonate of
+lime is the one most generally met with, and to obtain a numerical
+expression for this quality of hardness a sample of water
+containing 1 lb. of carbonate of lime, or its equivalent of other
+hardening salts, in 100,000 lb.--10,000 gallons--is said to have
+1&deg; of hardness. Each degree of hardness indicates the
+destruction and waste of 12 lb. of the best hard soap by 10,000
+gallons of water when used for washing. Hard water frequently
+becomes softer after it has been boiled for some time. When this is
+the case, a portion at least of the original hardening effect is
+due to the bicarbonate of lime and magnesia. These salts are
+decomposed by boiling into free carbonic acid, which escapes as
+gas, leaving carbonates of lime and magnesia; the latter being
+nearly insoluble in water, ceases to exert more than a very slight
+hardening effect, and produces a precipitate. As the hardness
+resulting from the carbonates of lime and magnesia is thus
+removable by boiling the water, it is designated temporary
+hardness, while the hardening effect which is due chiefly to the
+sulphates of lime and magnesia, and cannot be got rid of by
+boiling, is termed permanent hardness. The total hardness of water
+is therefore commonly made up of temporary and permanent hardness.
+A constant supply of hot water is now almost a necessity in every
+household, but great difficulties are thrown in the way of its
+attainment by the supply of hard water to towns forming thick
+calcareous crusts in the heating apparatus.</p>
+
+<p>Waters with much temporary hardness are most objectionable in
+this respect, and the evil is so great where the heating is
+effected in a coil of pipe, as practically to prevent, in towns
+with hard water, the use of this most convenient method of heating
+water. The property of being softened by boiling which temporarily
+hard water possesses is not of much domestic use, for water is, as
+a rule, either not raised to a sufficiently high temperature or not
+kept at it for a long enough time. Seeing then the disadvantages
+attendant on the use of hard water, it remains to be considered how
+best to soften it. Four processes are known to the arts. They are:
+Distillation, carbonate of soda, boiling, lime. Of these processes
+the first and second are the most effective, but owing to their
+expense are not applicable on a large scale. The third and fourth
+processes are efficient only with certain classes of water,
+rendered hard by the presence of the bicarbonate of lime, magnesia,
+or iron. The fourth is, however, a very cheap process, and is
+easily applicable to the vast volumes of water supplied to large
+cities, provided the hardening ingredients are of the character
+described.</p>
+
+<p><i>Softening by distillation</i>.--By evaporation, water is
+completely separated from all fixed saline matters, and
+consequently from all hardening matters. Distilled water, however,
+has a vapid and unpleasant taste, due partly to deficient aeration
+and partly to the presence of traces of volatile organic matter;
+and though filtration through animal charcoal will remove this, and
+the aeration can begin chemically, the process is too expensive,
+except in certain cases, as on board ship, or at military or naval
+stations where no potable water exists.</p>
+
+<p><i>Softening by carbonate of soda</i>.--The hardness of water,
+as already explained, being principally due to the presence in
+solution of bicarbonates and sulphates of lime and magnesia, can be
+reduced by addition of carbonate of soda, which decomposes these
+salts slowly in cold water but quickly in hot, forming insoluble
+compounds of lime and magnesia, which are slowly precipitated as a
+fine mud, leaving the water charged, however, with a solution of
+bicarbonate and sulphate of soda. This process, on account of
+expense, is only applicable on a small scale to the water for
+laundry purposes, as the water acquires an unpleasant taste from
+the presence of the soda salts. For laundry purposes it is,
+however, valuable, as it effects a great saving of soap.</p>
+
+<p><i>The softening of water by boiling</i>.--That portion of the
+hardness of water due to the presence of bicarbonate of lime,
+magnesia, or iron, is corrected by boiling the water for half an
+hour. During ebullition the bicarbonates, which are soluble, become
+carbonates, which are insoluble, giving off their carbonic acid as
+gas, rendering--by the precipitate produced, but not allowed in a
+boiler time to settle--the water muddy, but incapable of
+decomposing soap. To raise the temperature of 1,000 gallons of
+water to the boiling point and to maintain it for half an hour
+requires the consumption of about 2&frac12; cwt. of coal, or by the
+wasteful appliances found in households, probably three times that
+amount. Softened by boiling, then, 1,000 gallons of water would
+cost about 7s. 6d., while the cost of softening the same amount by
+soap is 9s., at &pound;2 6s. 6d. per cwt.</p>
+
+<p><i>The softening of water by lime</i>.--The economy which
+carbonate of soda exhibits in comparison with soap as a softening
+material is far surpassed by the use of lime. Lime costs about 8d.
+per cwt., and this weight of lime will soften the same volume of
+water as would require the use of 20&frac14; cwt. of soap. From the
+above it is evident--so soon as it is conceded that there is an
+advantage in using soft water--that the lime process is by far the
+most economical. Besides the chemical action affecting the
+hardness, it has another most important mechanical action, in
+consequence of the weight of each particle composing the
+precipitate produced by it. These particles during subsidence
+become attached to the almost microscopical organic impurities
+present in all river water, and drag them down to the bottom of the
+settling tank, whereby the water is rendered, after some eight
+hours, clear as crystal. The average cost of the water supplied by
+the leading metropolitan water companies is &pound;10 10s.
+9&frac34;d. per million gallons. The charge made by the companies
+to consumers is about 6d. per 1,000 gallons, or &pound;25 per
+million gallons. It has been found that water can on a large scale
+be softened from 14&deg; hardness to 5&deg; at a cost of 20s. per
+million gallons--that is, 10 per cent. on the cost of the water to
+the companies, or 4 per cent. as the price charged to consumers.
+This estimate does not take into account the value of the
+precipitated chalk, which has a market price, and is used for many
+purposes, being, in fact, whiting of the purest quality. The
+operations necessary in Clarke's process are four in number: (1)
+The preparation of milk of lime; (2) the preparation of a saturated
+solution of lime; (3) the mixture of this solution with the water
+to be softened; (4) the classification of the softened water by the
+separation of the precipitated substances Messrs. Law and
+Chatterton effect these processes by simple mechanical means which
+are so far automatic that they only require the presence of a
+person, without technical knowledge, once in each twenty-four
+hours. No filtering medium whatever is required, which is a great
+advantage for the following reasons: (1) Filtering materials
+require periodical cleaning and renewal, which not only occasion
+much trouble and mess, but are also frequently inefficiently
+performed. (2) Experience has shown that the filtering material,
+whether cloth, charcoal, or other substance, is extremely liable to
+become mouldy or musty, which makes the wafer both unwholesome and
+unpalatable. This system is especially adapted for small water
+supplies and for use in country houses, there being no operation to
+perform requiring either technical, chemical, or mechanical
+knowledge, nor producing dust or dirt.</p>
+
+<p class="ctr"><a href="images/6a.png"><img src=
+"images/6a_th.jpg" alt=""></a></p>
+
+<p class="ctr">Fig. 1.--LAW AND CHATTERTON'S<br>
+WATER-SOFTENING APPARTUS.</p>
+
+<p>The following is a description of this apparatus as fitted at
+the Hoo, Luton, Bedfordshire, for the supply of Mr. Gerard Leigh's
+house, grounds, and home farm. The mixing of the lime and the
+subsequent stirring of the water is effected by water power
+obtained from a turbine. The whole of the apparatus and tanks
+occupy a space 60 ft. square, 3,600 ft. area, and soften a daily
+supply of 50,000 gallons.</p>
+
+<p class="ctr"><img src="images/6b.png" alt="Fig. 2"></p>
+
+<p class="ctr">Fig. 2</p>
+
+<p>A pump driven from the turbine forces the water to a reservoir
+in the park and on to the house, an ingenious automatic arrangement
+worked by the overflow from the cistern throwing the pump out of
+gear when the tank is full. A, B, and C. Figs. 1 to 6 herewith, are
+three tanks in which the water remains to be softened, each capable
+of holding one day's supply. D and E are two smaller tanks in which
+the lime water is prepared; X is the automatic valve apparatus by
+which the connections between the several tanks are effected in the
+order and at the times required; H and H show the positions in
+which two pumps should be placed, the former for pumping unsoftened
+water into the tanks, the latter to pump the softened water into
+the supply cistern. J is the pipe from the well or other source of
+supply--in case the supply is at a higher level, one pump can be
+dispensed with. The operation consists in adding to the water to be
+softened a certain quantity of lime water, depending upon the
+degree of hardness, and in then allowing the mixture to rest in a
+state of perfect quiescence until the whole of the lime has been
+deposited and the water has become perfectly clear. The tank, A,
+has been filled with unsoftened water. Tank B contains the water
+and lime in process of clarification by subsidence after mechanical
+agitation by the screw. Tank C contains the softened water--and the
+precipitate--in process of removal for consumption. The mode of
+working is as follows: The milk of lime, prepared by slaking new
+lime in a "Michele mixer"--not shown. One of the tanks, D, having
+been filled with softened water, run by gravity from one of the
+tanks, A, B, or C, the requisite amount of milk of lime is allowed
+to flow into it from the lining machine, and the whole having been
+thoroughly mixed by the patent agitator, G, is left in a quiescent
+state for some hours, when the superabundant lime falls to the
+bottom, and the tank contains a perfectly clear and saturated
+solution of lime. The requisite quantity of lime water is then
+suffered to flow by gravity into whichever of the three tanks is
+empty. In the mean while, the softened water is being withdrawn by
+pumping or gravitation, as the case may be, from the tank C, until,
+upon the water being lowered to within a certain distance of the
+bottom, an automatic arrangement shifts the valve, X, so that the
+supply then commences from B, the unsoftened water flows into C,
+and the water is in process of clarification in A, and thus the
+operation proceeds continuously. Where the water can be supplied by
+gravitation, and the tanks can be placed at a sufficient elevation
+to command the service cistern, no pumps are required, the
+softening process, in fact, in no way necessitating pumping. The
+space occupied by the whole of the tanks and apparatus is 60 ft.
+square, 3,600 ft. area, and softens 50,000 gallons per day. For the
+daily softening of quantities less than 1,000 gallons, the tanks
+are made of galvanized sheet iron, and the whole apparatus and
+tanks are self-contained, so as only to require the making of the
+necessary connections with the existing supply and delivery pipes,
+and fixing in place. No expensive foundations are required, and the
+entire cost of an apparatus--see Figs. 2, 3, 4, 5, and 6--capable
+of softening 500 gallons per day is about &pound;75. Annexed is a
+more detailed description of the manner of fixing and working the
+smaller apparatus.</p>
+
+<p class="ctr"><img src="images/6c.png" alt="Fig. 3"></p>
+
+<p class="ctr">Fig. 3</p>
+
+<p>The tank must, of course, be set up perfectly level. The pipe
+from the source of supply--in the present case from the hydraulic
+ram--must be attached to the upper three way cock at A, on the
+accompanying engravings, and the pipe to supply softened water is
+to be connected to the lower three-way cock at B, and should be led
+into the elevated cistern with a ball cock so as to keep it always
+filled. The three ball cocks in C, D, and E should be adjusted to
+allow the tanks to fill to within 3 in. of the top. The nuts at the
+upper extremity of the three rods, F, G, and H, should be so
+adjusted that when the water in the several tanks has been drawn
+down to within 15 in. of the bottom the rocking shaft, I I, is
+drawn down and the vertical rod, J, lifted so as to allow the
+wheel, K, and spindle, L, to revolve by the action of the weight,
+M. The length of the chain is such that when the weight, M, rests
+upon the floor the face of the raised rim on the wheel, K, should
+not quite touch the rod, J, and if necessary, a thin packing should
+be put for the weight to drop upon. The lime to be used should be
+pure chalk lime free from clay, mixed with water to a smooth,
+creamy consistency, and then poured into the small tank, N. This
+tank should then be filled with water to within 3 in. of the top,
+and the small air pump worked until the lime has become thoroughly
+mixed and diffused throughout the water. Care must be taken that
+previous to filling the tank the float, O, is raised up, as shown
+by the dotted lines in Fig. 3. After the lime has been thoroughly
+mixed it should be left for at least eight hours for the
+superabundant lime to subside, leaving the supernatant fluid a
+perfectly clear saturated solution of lime. At the end of this time
+the float, O, should be lowered, so that it may float upon the lime
+water, and the three-way cock, P, should be turned in such a
+position as to allow the contents of the tank, N, run into the
+tank, Q, until the necessary quantity has been supplied, the mode
+of determining which is hereinafter described.</p>
+
+<p class="ctr"><img src="images/6d.png" alt="Fig. 4"></p>
+
+<p class="ctr">Fig. 4</p>
+
+<p>The spindle, L, should then be turned into the position which
+allows the water from the source of supply to be discharged into
+the tank, Q, the float, R, having first been raised into the
+position shown in Figs. 2 and 5. A second quantity of the lime
+should now be added to the tank, N, mixed with water, and after
+agitation, another eight hours allowed for the contents of both the
+tanks, Q and N, to subside. At the end of this time the three-way
+cock, P, should be turned through a third of a circle, so as to
+discharge the lime water into the tank, S; and the spindle, L,
+should be turned in the contrary direction to the hands of a watch
+through the third of a circle, so as to allow the water from the
+source of supply to be discharged into the tank, S, care being
+taken as before to raise the float, T, out of the water. A third
+quantity of lime must be added to the tank, N, and now mixed with
+water to be drawn from the tank, Q, by the tap, U, and after
+agitation again left for eight hours to subside. The float, R, may
+now be lowered into the water in the tank, Q, when it will be found
+that the clear softened water contained in the tank, Q, will be
+discharged through the pipe attached to the bottom of the three way
+tap, B. The weight, M, must now be lifted about 5 in., so as to
+allow the ring at the end of the chain to be moved back to the next
+stud on the wheel, K. The lime water in the tank, N, must next be
+discharged into the tank, V, and then another quantity of lime must
+be added to the tank, N, and filled up with softened water from the
+tank, S, by means of the tap, W, and after being duly agitated and
+left to subside. As soon as the softened water from the tank, Q,
+has been drawn down to within 15 in. of the bottom, the rod, H,
+will move the rocking shaft, I, and lift the rod, J, so releasing
+the wheel, K, and allowing the weight, M, to descend and turn the
+spindle, L, and the upper and lower three-way cocks through a third
+of a circle; the effect of which movement will be to continue the
+supply of softened water from the tank, S, and to fill up the tank,
+V, with water from the source of supply.</p>
+
+<p class="ctr"><img src="images/6e.png" alt="Fig. 5"></p>
+
+<p class="ctr">Fig. 5</p>
+
+<p>The apparatus will now be in the condition to afford a regular
+supply of softened water; all that will be necessary to insure its
+continuous action will be that at certain stated intervals
+dependent upon the rapidity with which the water is used--but which
+interval should not be less than eight hours--the following things
+should be done: (1) The float must be raised out of the tank last
+emptied. (2) The float must be lowered into the tank last filled.
+(3) The weight, M, must be raised, and the ring of the chain
+shifted to the next stud on the wheel, K. (4) The clear lime water
+found in the tank, N, must be turned into the tank last emptied.
+(5) The requisite quantity of lime must be put into the tank, N.
+(6) The requisite quantity of water must be drawn off from the tank
+last filled into the tank, N. (7) The contents of tank, N, must be
+thoroughly mixed by means of the air pump. The quantity of lime to
+be used for each tankful of water must depend upon the hardness of
+the water, &frac34; oz. being required for each tankful for each
+degree of hardness. It is desirable, however, always to have an
+excess of lime in the tank, N, so as to insure obtaining a
+saturated solution of lime. When first mixed the contents of the
+tank, N, will have a creamy appearance, but when the superabundant
+lime has subsided the supernatant liquid will be a perfectly clear
+saturated solution of lime. Therefore, in the first instance, 3 lb.
+of lime should be put into the tank, N, and subsequently each time
+such a quantity of lime should be added as is found to be necessary
+by the method hereinafter described. The quantity of the saturated
+lime water to be run into each of the softening tanks, Q, S, and V,
+will depend upon the hardness of the water. For every degree of
+temporary hardness a depth of 1-6/10 in. of the contents of the
+tank, N, will be required; so that if the water has 14 deg. of
+temporary hardness, then 22&frac12; in. in depth of lime water must
+be run off into each of the tanks, Q, S, and V. In the first
+instance an excess of lime may be used, and the softened water
+tested by means of nitrate of silver in the following manner: A
+solution of 1 oz. of nitrate of silver in a pint of twice distilled
+water should be obtained. Having let two or three drops of this
+solution fall on the bottom of a white tea cup, slowly add the
+softened water; then if there be any excess of lime, a yellow color
+will show itself, and the quantity of lime water used must be
+reduced until only the faintest trace of color is
+perceptible.--<i>The Engineer</i>.</p>
+
+<p class="ctr"><img src="images/7a.png" alt="Fig. 6"></p>
+
+<p class="ctr">Fig. 6</p>
+
+<hr>
+<a name="7"></a>
+
+<h2>IMPROVED WATER METER.</h2>
+
+<p>We annex illustrations of a meter designed by Mr. A. Schmid, of
+Z&uuml;rich, and which, according to <i>Engineering</i>, is now
+considerably used on the Continent, not only for measuring water,
+but the sirup in sugar factories, in breweries, etc. It consists of
+a cast iron body containing two gun-metal-lined cylinders, and
+connected by an intermediate chamber. Round the body are formed two
+channels, one for the entrance and the other for the discharge of
+the water, etc., to be measured. Within the cylinder are placed two
+long pistons, provided with openings in such a way that each piston
+serves as a slide valve to the other, the flow being maintained
+through the ports in the connecting chamber. The arrangement of
+openings in the piston is shown in Figs. 5, 6, 7, and the
+intermediate passages in Figs. 1, 2, and 3. To the upper side of
+each piston is attached a cross-head working on a disk placed at
+each end of a horizontal shaft. To one of the disks is added a
+short connecting rod that drives the spindle of a counter.</p>
+
+<p class="ctr"><a href="images/7b.png"><img src=
+"images/7b_th.jpg" alt="SCHMID'S WATER METER."></a></p>
+
+<p class="ctr">SCHMID'S WATER METER.</p>
+
+<hr>
+<a name="8"></a>
+
+<h2>WASHING MACHINE FOR WOOL.</h2>
+
+<p>The washing machines in use for wool on the rake principle have
+during the last few years experienced many improvements in the
+details of their arrangement, which we have illustrated at
+different times in our columns. The introduction of these
+improvements and alterations shows that the washing of wool has
+attracted more attention on the part of observant manufacturers and
+machine makers, and demonstrated at the same time that the machines
+hitherto in use, with all their advantages, left much to be desired
+in other respects. The main difficulty with all washing machines
+for wool has been the avoidance of felting of the wool, which
+tendency is increased by the use of warm water for washing and by
+the agitation that some consider necessary for a thorough cleansing
+of the wool and removal of the adhering impurities, but which
+agitation is deprecated by others.</p>
+
+<p class="ctr"><img src="images/7c.png" alt=
+"IMPROVED WOOL WASHING MACHINE."></p>
+
+<p class="ctr">IMPROVED WOOL WASHING MACHINE.</p>
+
+<p>Referring to our different illustrations of improvements in this
+direction, our subscribers will observe that the tendency of all
+these has been to keep the wool floating in the water, and to apply
+all mechanical appliances required for its cleansing and pressing
+as much as possible while it is in this suspended condition. The
+success which the different appliances and improvements mentioned
+by us have had when used for the class of wool for which they are
+intended, has induced us to look up any attempts in a similar
+direction which have been made on the Continent, where the subject
+has attracted attention, as well as with us. We therefore give the
+annexed illustration of a machine invented by a German woolen
+manufacturer, which in many respects is a wide departure from the
+acknowledged type in use in this country. As with the English
+machines, the wool enters from a creeper at one end, passes through
+a long trough, filled with water or lye, ascends an inclined plane,
+and passes out through a pair of squeezing rollers. The invention
+mentioned applies to the treatment in the trough which latter is
+shown in our illustration at K. It has a second bottom, a little
+distance from a false one, at K. The false bottom is traversed in
+its whole length by an air pipe, communicating with the atmospheric
+air outside the trough. From this longitudinal pipe other pipes
+branch off at right angles at stated intervals, as shown in section
+in Fig. 2. These smaller pipes contain a number of small
+perforations on their upper part, through which the air ascends
+into the water in innumerable small bubbles. This is one of the
+principal aims of the invention, for in ascending the bubbles lift
+the wool more or less to the surface and tend to open it out
+without the risk of doing so by any mechanical means liable to
+produce felting. This is the same effect that is produced in many
+cases so successfully in boiling. Instead of rakes the inventor has
+placed four hexagonal drums into the trough, marked D, E, F, G. The
+flat parts of these drums are made of perforated metal and set back
+a little. This produces an alternate passing of the water into and
+out of them during their revolution and consequent sucking and
+repulsing of the wool, which also likewise agitates it. These drums
+are made wide at the entrance end of the trough and gradually
+narrower toward the delivery end. The pipe, V V, is the usual steam
+pipe for heating the water.</p>
+
+<p>We have said before that the improvements introduced into the
+wool washing machines nearer home have been of advantage for the
+wools for which they are intended, and possibly the invention just
+described will also be valuable in some cases.--<i>Tex.
+Manuf.</i></p>
+
+<hr>
+<a name="9"></a>
+
+<h2>INCREASING THE ILLUMINATING POWER OF GASES, ETC.</h2>
+
+<h3>By V. POPP, of Paris.</h3>
+
+<p>This invention relates to lighting by mixing air or other
+gaseous supporter of combustion with illuminating or other
+hydrocarbon gas or vapor, and burning the mixture (at a suitable
+pressure) in a burner of special construction, shown in the
+accompanying illustrations.</p>
+
+<p class="ctr"><img src="images/7d.png" alt=""></p>
+
+<p>The burner is constructed as shown in Figs 1 and 2. It consists
+of a central tube, i, screwing upon the pipe by which the gaseous
+mixture is supplied. Upon this tube is screwed a cup, k, of metal
+or refractory material which supports a cap, l, of fire-clay in the
+shape of a thimble (or of other form, according to the intended use
+of the burner). The flanged base of this cap is perforated with a
+ring of holes, m, as small and numerous as possible, and the sides
+of the cap are pierced with oblique perforations, n. The top of the
+tube, i, is provided with four small projections, upon which rests
+a copper cone, o, soldered to the tube at a point below the
+perforations in the base of the thimble. The cone is perforated at
+its lower end with small holes, p, the sum of whose areas is at
+least equal to the area of the tube. The thimble, l, is surrounded
+by an envelope, q, of platinum wire netting or other refractory
+material of the same form. The gaseous mixture arriving by the
+pipe, i, escapes at the upper orifices, r, and passes down against
+the interior surface of the cone, o, out at the orifices, p, and
+escapes through the orifices in the cap, l, at which it is burned.
+The cap is thereby raised to a high temperature; and the platinum
+wire sheath becoming incandescent radiates the light. The gaseous
+mixture, by coming first in contact with the copper cone and then
+with the refractory cap, becomes raised to an exceedingly high
+temperature before it is consumed.</p>
+
+<p>In the modified burner represented in Fig. 3, the metal cone and
+the fire-cap are truncated. The tube, i, is provided with a number
+of small perforations, r, at its upper end, the sum of whose areas
+is at least equal to the area of the tube, and by which the gaseous
+mixture is distributed within the chamber, k. Upon the upper closed
+end of the tube is fixed a cup or inverted thimble, o, of
+fire-clay. A refractory cone, l, surrounds this cup and rests by
+its base upon the cup. This flanged base is perforated with small
+vertical holes, m, and upon it is fixed a platinum wire cage or
+envelope, q. An annular space is left between the cone and cup for
+the passage of the gaseous mixture, which, on escaping from the
+orifices, r, passes over the exterior surface of o, the interior of
+which is already heated by the flame which has not passed through
+the wire gauze, and has been forced by the pressure of the mixture
+into the interior of o. The gaseous mixture before passing through
+the annular space thus attains such a temperature that on escaping
+from the orifice its combustion is greatly promoted.</p>
+
+<hr>
+<a name="10"></a>
+
+<h2>PREVENTING IRON FROM RUSTING.</h2>
+
+<p>In the present state of civilization the use of iron has reached
+a very wide extension, and in a great number of cases iron is used
+where wood or stone was formerly used. It is certainly an important
+question how this metal can be protected under all circumstances
+against rust or oxidation, so that the many costly iron structures
+may retain their usefulness and strength, and be handed down
+uninjured to posterity.</p>
+
+<p>Wherever bright iron comes into contact with air and moisture it
+immediately begins to rust, and this rust is not content to
+continually rob it of its substance in its persistent progress by
+scaling off the surface, but at the same time it injures the
+remainder of the iron by making it brittle. Attempts have hitherto
+been made to protect the iron by covering it with other and less
+easily oxidizable metals. For this purpose tin was first selected,
+then lead and zinc, and recently nickel. Furthermore, earthy
+glazings and enamels, such as are used on stone ware, have been
+applied to iron vessels, and they have already found extensive use
+in the household. In most cases these coatings, either metallic or
+vitreous, are inapplicable, either because they cannot be applied
+or are too expensive, so that on a large scale recourse must be had
+to paints made by mixing oils with metallic oxides, earths, etc.,
+for protecting the surface of the iron from air and moisture.</p>
+
+<p>It has been observed that iron does not rust in <i>dry</i> air,
+not even in dry oxygen. In like manner it frequently happens that
+unpainted iron, such as weather vanes, fences, etc., is exposed to
+the air for a century with very little injury, being covered with a
+thin coating of the magnetic oxide (proto-sesquioxide), which acts
+as a protection and prevents farther action. Hence it has been
+proposed to produce a layer of this magnetic oxide on the surface
+artificially, and it was found that superheated steam furnished the
+means for doing this. But it is not to be supposed that such a
+process would find use on a large scale, and besides this
+protection could only serve for iron tolerably exposed to the open
+air and not for that in direct contact with carbonic acid and
+water.</p>
+
+<p>An interesting observation has been made on railways that the
+iron rails, ties, bolts, etc., rust until the road begins to be
+used. Here we must assume that anything made of iron is more
+inclined to rust when at rest than if occasionally caused to
+vibrate, when an electrical action probably comes into play and
+decreases the affinity of iron for oxygen.</p>
+
+<p>In tearing down old masonry iron bonds and clamps are often
+found which are as free from rust, so far as they are covered with
+mortar, as they were the day they left the blacksmith's hands. A
+French engineer met with such a phenomenon when he uncovered the
+anchor plates of several chain bridges which had been built about
+thirty years. Where the anchors were covered with the fatty lime
+mortar of the masonry they showed no traces of rust, but the
+prolongations of the anchors in empty spaces were rusted to such an
+extent that they were only one-third of their original
+thickness.</p>
+
+<p>It has been repeatedly observed that iron does not rust in water
+in which are dissolved small quantities of caustic alkalies or
+alkaline earths, which neutralize every trace of acid. It seems
+that these experiences are the basis of A. Riegelmann's (Hanau) new
+protection against rust. The paint that he uses contains caustic
+alkaline earths (baryta, strontia, etc.), so that the iron is in a
+condition similar to the iron anchors of the chain bridges that
+were embedded in lime mortar. Although a paint is not thick enough
+to inclose so much alkali as the masonry did that the iron was
+embedded in, nevertheless the alkaline action will make itself felt
+as long as the coating has a certain consistence. Under all
+circumstances, however, these new paints will be free from active
+acids, which is more than can be said of our iron paints hitherto
+in use. Besides this, the rust protector has such a composition
+that it could serve its intended purpose without the addition of
+any alkali. If experience confirms this claim, it will be an
+interesting step forward in the preservation of iron, and
+contribute to an extension in the use of iron.--<i>Polytechn.
+Notizblatt</i>.</p>
+
+<hr>
+<p class="ctr"><a href="images/8a.png"><img src=
+"images/8a_th.jpg" alt=
+"SUGGESTIONS IN DECOTATIVE ART.--A CUPBOARD IN ITALIAN WALNUT WITH DARKER PANELING.--&lt;i&gt;From The Workshop&lt;/i&gt;.">
+</a></p>
+
+<p class="ctr">SUGGESTIONS IN DECOTATIVE ART.--A CUPBOARD IN
+ITALIAN WALNUT WITH DARKER PANELING.--<i>From The Workshop</i>.</p>
+
+<hr>
+<a name="11"></a>
+
+<h2>AN ELASTIC MASS FOR CONFECTIONERS' USE.</h2>
+
+<p>It should be made in a well glazed earthen crock; metallic
+vessels are not good, as the gelatine burns too easily on the
+sides, and dries out where it gets too hot. Nor is a water bath to
+be recommended for dissolving the gelatine, for the sides get too
+hot and dry out the gelatine.</p>
+
+<p>A quart of water is put in the crock and heated to boiling; it
+is then taken off the open fire and two pounds of the finest
+gelatine stirred in, a little at a time. After the gelatine is
+completely dissolved there is to be added eight or ten pounds
+(according to the quality of the gelatine) of the finest white
+sirup previously warmed, and constantly stirred. The mass must not
+boil, as it would easily burn, or turn brown and acquire a bad
+color.</p>
+
+<p>Thirty or forty pounds of a beautiful white elastic mass can be
+made by this recipe in an hour at a cost of ten or twelve cents.
+Its chief use is for making figures and ornaments to put on bridal
+cakes and other fanciful productions of the confectioner. It
+contains no harmful ingredients and can be eaten without danger. If
+coloring is added, cochineal, plant green (chlorophyl), and
+turmeric are safer than aniline colors.</p>
+
+<hr>
+<a name="12"></a>
+
+<h2>CAOUTCHOUC.</h2>
+
+<p>A. Levy contributes the following brief account of this subject
+to the <i>Moniteur Scientifique</i>:</p>
+
+<p>The crude gum cut in irregular strips is passed five or six
+times between two strong rolls sixteen inches in diameter, and
+making two or three revolutions per minute. These rolls are kept
+wet by water trickling on them. This broad strip of gum is
+perforated with foreign substances and looks like a sieve. It is
+next put in the cutting machine, a horizontal drum provided with an
+axle having knives on it. So much heat is produced by this cutting
+that the water would soon boil if it were not renewed. A second
+machine of this kind completes the cutting and subdividing, and
+expels the air and water from it. The mass is then pressed in round
+or quadrangular blocks.</p>
+
+<p>The vulcanization of thin articles from one twenty-fifth to
+one-sixteenth inch thick, is done by Parkes' patented process, that
+is, dipping it in carbon disulphide for a short time, to which
+chloride or bromide of sulphur has been added, and when the solvent
+has evaporated the sulphur remains behind. Balls, ornamental
+articles, and surgical apparatus are dipped into melted sulphur at
+275&deg; or 300&deg; Fahr.</p>
+
+<p>The third most important process consists in mixing in the
+sulphur mechanically with the gum in the cutting machine.</p>
+
+<p>After the pieces have received the form they are to have they
+are heated with steam or hot air to 275&deg;. Flat articles are
+vulcanized between press plates heated by steam. This vulcanization
+is said to have been discovered accidentally by searching different
+colored stuffs, some of which were dyed yellow with sulphur; the
+latter stood well.</p>
+
+<p>Hard rubber contains more sulphur, and is heated longer and
+higher. Small or fine tubes and hose are made by a continuous
+machine that presses it through a hole with a core to it. Large
+hose is made by wrapping strips around iron rods or tubes. The
+little air balloons are made in Paris (their value is $300,000) by
+Brissonet from English Mackintosh cloth. Powdered soapstone is
+strewed over it in cutting. The edges are united by hammering on a
+horn anvil, or by machinery through simple adhesion, and the cut
+surfaces are smooth.</p>
+
+<hr>
+<a name="13"></a>
+
+<h2>PHOTOGRAPHIC ACTION STUDIED SPECTROSCOPICALLY.</h2>
+
+<p>At the last meeting of the Chemical Society Captain Abney gave a
+lecture on the above subject to a large audience. We may premise by
+saying that the demonstrations he gave were carried out principally
+by means of experiments on paper, to enable his hearers to
+understand the different points he wished to enforce. The lecture
+was commenced by insisting on the fact that all photographic action
+took place within the molecules of the compound acted upon and not
+on the molecule itself, and from this he deduced that the
+absorption of radiation which take place by such compounds is
+principally caused by the atoms composing the molecule. This was
+found to be the case in the organic liquids, which the lecturer to
+some extent had investigated, where he had further traced the
+absorption to the vibrating atoms of hydrogen in those bodies. In
+order to properly investigate the action of light it was necessary
+to ascertain which components of light in the spectrum were the
+chief agents in causing it, and this led him to consider the means
+to be employed to obtain a spectrum.</p>
+
+<p>The effects of diffraction gratings were first discussed, and in
+two which were shown it was found that in some spectra the visible
+portions were dimmed; in others the ultra-violet and the infra-red
+were almost entirely absent. It thus became necessary to
+investigate the condition of a grating before placing any
+confidence in the results obtained. This was the first pitfall into
+which an experimentalist was liable to fall. If prisms were used
+for obtaining the spectrum, then precautions had also to be taken,
+since all glass absorbed a portion of the ultra-violet rays and
+some the infra-red. On the whole, he considered that the best glass
+to use was pure white flint glass for the collimator, the prisms,
+and the camera lens. Another inquiry that was necessary was the
+source of radiation which it was proposed to use. Diagrams showed
+the unsatisfactory nature of solar radiation, and a photograph of
+the whole spectrum, taken with it under certain atmospheric
+conditions in which the effect of the green rays were almost
+<i>nil</i>, demonstrated the false conclusions that might be
+deduced as to the sensitiveness of any particular compound.</p>
+
+<p>Captain Abney also showed the satisfactory conditions which
+existed in using the crater of the positive pole of the electric
+arc light as a source, and by diagrams illustrated the inferiority
+of an incandescent light for the purpose, owing to the deficiency
+of violet and ultra-violet rays. Having thus settled the source of
+illumination and the kind of apparatus to employ, he next
+considered the conditions under which the sensitive salts were to
+be exposed. The action of ordinary sensitizers was explained and
+demonstrated by experiments, from which point the results of
+certain colored sensitizers were considered. Thus, various aniline
+dyes were proved to be bromine absorbents, and likewise, more or
+less, to be capable of being acted upon by light in those regions
+of the spectrum they absorbed. The result of the two effects was to
+produce a developable image of the spectrum just in those parts to
+which the salt of silver was sensitive, and also in the parts where
+the dye itself was acted upon. The latter effect was traced to the
+organic matter being oxidized in the presence of the sensitive
+silver salt.</p>
+
+<p>The sensitizing effect of one silver compound upon another was
+then gone into, and experiments and photographs showed where two
+salts of silver were in contact with one another, and without an
+energetic sensitizer being at hand, that the one when acted upon by
+light absorbed the halogen liberated from the other through the
+same cause and that a new molecule was formed. This was of
+importance, since in photographic spectroscopic researches a
+conclusion might be arrived at that a body suffered absorption in
+those regions of the spectrum where this interesting reaction took
+place, whereas in reality the phenomenon might be due to the silver
+salts employed. This was another pitfall for the unwary. Again, it
+became necessary in studying photographic action to make sure that
+the effect of radiation was only a reducing action, and that the
+results were not vitiated by some other action.</p>
+
+<p>The destruction by oxidizing agents of the effect produced by
+light was then experimentally demonstrated, and photographs of the
+spectrum showed that this effect was increased by the action of
+light itself. Thus, when immersing a plate sensitive to all
+radiations, visible and invisible, in a very dilute solution of
+nitric acid, bichromate of potash, or hydroxyl, it was shown that
+if the plate were exposed to light, first the parts acted upon by
+the red rays were reduced before the parts not acted upon at all by
+the spectrum, thus conclusively proving that light itself helped
+forward the oxidation or so-called solarization of the image. It
+thus became a struggle, under ordinary circumstances, between the
+reducing action on the normal salt and the oxidizing action on the
+altered salt as to which should gain the mastery. If the reducing
+action of any particular ray were the most active, then a negative
+image resulted, whereas if the oxidizing action were in the
+ascendant, a positive image resulted. Thus, in determining the
+action of light on a particular salt, this antagonism had to be
+taken into account, and exposure made with such precautions that no
+oxidizing action could occur, as would be the case if an inorganic
+sensitizer, such as sulphite of soda, were used.</p>
+
+<p>The reversal of the image by soluble haloid salts, such as
+bromide of potassium, was then dwelt upon with experimental
+demonstration. It was shown that the merest trace of soluble haloid
+would reverse an image by the extraction of bromine from it, and
+the fact that the most refrangible part of the spectrum was
+principally efficacious in completing this action showed how
+necessary it was to avoid falling into error when analyzing
+photographic action by the spectroscope. A reference was next made
+to gelatine plates, in which, owing to their preparation, reversal
+through the above cause was most likely to take place, and a plate
+soaked in sulphite of soda and exposed in the camera for a couple
+of minutes--a time largely in excess of that necessary to give a
+reversal under ordinary circumstances--proved the efficacy of the
+oxygen absorber, the image remaining in its normal condition after
+development.</p>
+
+<p>The lecturer closed his remarks by showing the different
+molecular states of iodide, bromide, and chloride of silver, as
+produced by different modes of preparation. The color of the film
+by transmitted light in every case indicated the effect which was
+likely to be produced on them, and the photographed spectrum in
+each of them showed the remarkable differences that were found. The
+points raised by Captain Abney at different times are well worthy
+the study of scientific photographers, since strict attention to
+the modes of exposure to the spectrum, to the instruments employed,
+and to the source of light used can alone insure accuracy in
+comparative experiments.--<i>Br. Jour. of Photo</i>.</p>
+
+<hr>
+<a name="14"></a>
+
+<h2>SALT AND LIME.</h2>
+
+<p>M.F.K. communicates the following interesting circumstance to
+<i>Neueste Erfindung</i>.: A few years ago it was decided to
+whitewash the walls and ceiling of a small cellar to make it
+lighter. For this purpose a suitable quantity of lime was slaked. A
+workman who had to carry a vessel of common salt for some other
+purpose stumbled over the lime cask and spilled some of his salt
+into it. To conceal all traces of his mishap he stirred in the salt
+as quickly as possible. The circumstance came to my knowledge
+afterward, and this unintentional addition of salt to the lime
+excited my liveliest curiosity, for the whitewash was not only
+blameless, but hard as cement, and would not wash off.</p>
+
+<p>After this experience I employed a mixture of milk of lime and
+salt (about three parts of stone lime to one part of salt), for a
+court or light well. To save the trouble and expense of a scaffold
+to work on, I had it applied with a hand fire engine (garden
+syringe?) to the opposite walls. The results were most
+satisfactory. For four years the weather has had no effect upon it,
+and I have obtained a good and cheap means of lighting the court in
+this way.</p>
+
+<hr>
+<a name="15"></a>
+
+<h2>RENEWING PAINT WITHOUT BURNING.</h2>
+
+<p>It is stated in the <i>Gewerbeblatte fur Hessen</i> that paint
+can be renewed and refreshed in the following manner:</p>
+
+<p>When cracks and checks appear in the paint on wooden articles,
+this usually indicates that the varnish has cracked. If this is the
+case, the article can easily be prepared for a fresh coat by
+sponging it over with strong ammonia water, and two or three
+minutes later scraping off the varnish with the broad end of a
+spatula before the ammonia has dried up.</p>
+
+<p>In this way the first coat is removed. If it is necessary to
+remove the next coating, the same operation is repeated. After the
+last coat has been scraped off that is to be removed, it must be
+washed with sufficient water to render the ammonia inactive, and
+then the surface is rubbed with pulverized pumice to make it
+smooth. Any desired paint or varnish can be applied to a surface
+prepared in this way.</p>
+
+<hr>
+<a name="20"></a>
+
+<h2>TESTING OLIVE OIL.</h2>
+
+<h3>By DR. O. BACH.</h3>
+
+<p>There is no department in analytical chemistry in which so
+little success has been attained as in the testing of commercial
+fats and oils. All methods that have been proposed for
+distinguishing and recognizing the separate oils, alone or mixed,
+bear upon them the stamp of uncertainty.</p>
+
+<p>The facts observed by J. Koenig, and described by him in his
+excellent book entitled "<i>Die Menschlichen Nahrungs und
+Genussmittel</i>" (p. 248), excited great expectations; viz., that
+the quantity of glycerine in vegetable fats was much less than the
+amount required to combine with all the fatty acids, and that the
+quantity of oleic acid in the oils that he examined exhibited
+essential differences. Koenig himself asserts that the fats have
+hitherto been too little investigated to found upon it a method for
+distinguishing them, but that nevertheless it may possibly do good
+service in some cases.</p>
+
+<p>My own estimation of the amount of glycerine in different olive
+oils, by Koenig's method, has shown, unfortunately, that the
+percentage may vary from 1.6 to 4.68, according to the origin and
+quality of the oil. In like manner the estimation of the oleic
+acid, which was conducted essentially in the manner proposed by
+Koenig, showed that the amount of oleic acid in different olive
+oils varied from 45 to 54 per cent. But since cotton seed oil, for
+example, which is most frequently used to adulterate olive oil,
+contains 5 per cent. of glycerine, and 59.5 per cent. of oleic
+acid, it is easy to see an admixture of cotton seed oil cannot be
+detected by this method, which appeared to be so exact.</p>
+
+<p>The method of analysis that I am about to describe is based
+chiefly upon the determination of the melting point of the fatty
+acids contained in the oils, and upon their solubility in a mixture
+of alcohol and acetic acid.</p>
+
+<p>The oils employed in adulterating olive oil, and to which regard
+must be had in testing it, are the following: Cotton seed oil,
+sesame, peanut, sun flower, rape, and castor oils. The tests for
+the two last named have hitherto never presented any difficulty, as
+rape seed is easily detected, owing to the sulphur in it, by
+saponifying it in a silver dish, and castor oil by its solubility
+in alcohol. But in recent times another product has come into the
+market called sulphur oil or pulpa oil, obtained by extracting the
+pressed olive cake with sulphide of carbon. This also gives a
+sulphur reaction when saponified, while it resembles castor oil by
+its solubility in alcohol. When this oil is mixed with ordinary
+olive oil, it can easily deceive any one who uses the ordinary
+tests.</p>
+
+<p>My method of testing olive oil is as follows:</p>
+
+<p>First, the so-called elaidine test is made, and then the test
+with nitric acid. About 5 c. c. (a teaspoonful) of the oil is mixed
+in a test tube with its own volume of nitric acid, spec. gr. 1.30,
+and shaken violently for one minute. At the expiration of this time
+the oils will have acquired the following colors: Olive oil, pale
+green; cotton seed oil, yellowish brown; sesame, white; sun flower,
+dirty white; peanut, rape, and castor oils, pale pink or rose.</p>
+
+<p>As soon as the color has been observed, the test glass is put in
+a water bath at the full boiling temperature and left there five
+minutes. It was found that the action of nitric acid upon cotton
+seed and sesame oil was the most violent, sometimes so violent as
+to throw the oil out of the glass. At the end of another five
+minutes after the test tube is taken out of the water bath, the
+following colors are seen: olive and rape oils are red; castor oil
+is golden yellow; sun flower oil, reddish yellow; sesame and
+peanut, brownish yellow; cotton seed, reddish brown.</p>
+
+<p>After standing 12 to 18 hours at about 60&deg; Fahr. the olive,
+rape, and peanut oils will have solidified; sun flower, castor, and
+cotton seed will be like salve (sticky), while sesame will remain
+perfectly liquid. Mixtures of olive oil with small quantities of
+cotton seed or sesame are distinguished by this
+characteristic--that, although the whole mass, which is darker in
+color than olive oil, solidifies at first, at the end of 24 or 36
+hours a brown oil will be found floating upon the surface of the
+solid mass, while the lower strata exhibit the yellow color of pure
+olive oil. Oil of rosemary has no effect when shaken with cold
+nitric acid, and imparts to it only a slightly darker color on
+heating. Oils treated with lye act just like pure oils.</p>
+
+<p>Far the purpose of determining the melting point of the fatty
+acids, 10 grammes of oil were saponified with 5 grammes of caustic
+potash on the water bath; some water and alcohol being added. After
+all the alcohol had been expelled the soap was dissolved in hot
+water, and the fatty acids separated from the clear solution by
+adding hydrochloric acid. After prolonged heating these acids will
+swim on the salt solution as a perfectly clear oil, a portion of
+which is then put into a little, narrow, thin walled tube and
+allowed to solidify. The point at with it melts and solidifies is
+determined by putting this tube in a beaker glass filled with water
+and warming with a small flame. A thermometer is placed <i>in</i>
+the fatty acids and moved gently about during the observation, and
+the point accurately observed at which the whole mass becomes
+perfectly clear, and also when the mercury bulb begins to be
+clouded. It was found that the acids from pure olive oil melt
+between 26&frac12; and 28&frac12;&deg; C. (= 80&deg; to 83&deg;
+Fahr.) and solidify at a point not lower than 22&deg; C. (72&deg;
+Fahr.). The melting point of the fatty acids in the oils used to
+adulterate olive oil differs considerably from this. The melting
+and solidifying points of the acids in cotton seed, sesame, and
+peanut oils lie considerably higher, those of sunflower, rape, and
+castor oils decidedly lower than those of olive oil.</p>
+
+<p>The melting and solidifying points of these acids are as
+follows:</p>
+
+<pre>
+  Cotton seed melts at 38.0&deg;C.  solidifies 35.0&deg;C.
+  Sesame       do.     35.0 do.    do.     32.5 do.
+  Peanut       do.     33.0 do.    do.     31.0 do.
+  Sunflower    do.     23.0 do.    do.     17.0 do.
+  Rape         do.     20.7 do.    do.     15.0 do.
+  Castor oil   do.     13.0 do.    do.      2.0 do.
+</pre>
+
+<p>The above figures differ so much from those of olive oil, that
+adulteratious carried to the extent that they are in trade can
+easily be detected by the aid of an estimation of the melting
+point, for a Gallipoli olive oil, mixed with 20 per cent. of
+sunflower oil, melted at 24&deg; C. and solidified at 18&deg; C.
+(of course, the fatty acids are meant). A Nizza oil, mixed with 20
+per cent. cotton seed oil, melted at 31&frac12;&deg; C. and
+solidified at 28&deg; C. A Gallipoli oil with 33-1/3 per cent. of
+rape oil melted at 23&frac12;&deg; C. and solidified at
+16&frac12;&deg; C. When 0.50 per cent. of rape is added, it melts
+as low as 20&deg; and solidifies at 13&frac12;&deg; C., etc.</p>
+
+<p>In testing the solubility of the fatty acids in alcohol and
+acetic acid, I employ the method proposed by David (in <i>Comptes
+Rendus</i>, 1878, p. 1416) for estimating stearic acid.</p>
+
+<p>It depends upon the principle that when acetic acid is poured
+drop by drop into an alcoholic solution of oleic acid, there comes
+a time when all the oleic acid separates, but stearic acid, which
+is insoluble in a mixture of alcohol and acetic acid, remains
+insoluble if the mixture contains oleic acid.</p>
+
+<p>The following manipulations are adopted in testing olive oil:
+Equal parts of glacial acetic acid and water are mixed in a bottle.
+Then 1 c.c. of pure oleic acid, 3 c.c. of 95 per cent. alcohol, and
+2 c.c. of acetic acid are put in a small tube graduated in tenths
+of cubic centimeters. The solution should remain clear; on adding
+another one-tenth c.c. of acetic acid it becomes turbid, and when 1
+c.c. of oleic acid (or at first even more) floats on the mixture of
+acid and alcohol, the liquid is ready for use. If this is not the
+case, the proportions (of acetic acid and alcohol?) must be varied
+until the addition of one-tenth c.c. of the former will cause all
+the oleic acid to separate. The proportions having been ascertained
+from these preliminary experiments, the alcohol and acid are then
+mixed accordingly, e.g., 300 of alcohol to 225 of acid. One or two
+grammes of stearic acid are added to the alcoholic acetic acid, and
+the clear supernatant liquid used for the experiments.</p>
+
+<p>One cubic centimeter of the oil (acids) to be tested is put in
+the tube, and 15 c.c. of alcoholic acetic acid added, well shaken,
+and the whole left to stand quietly at 15&deg; C. (60&deg; Fahr).
+If the olive oil is pure, the acids dissolve to a clear solution
+that remains so. Cotton seed oil is insoluble, and the solution
+obtained by heating the solution solidifies at 60&deg; Fahr. to a
+white jelly. Sesame and peanut oil react in a similar manner.
+Sunflower oil dissolves, but at 60&deg; a granular precipitate
+falls. Rape oil is entirely insoluble and floats like oil on the
+surface. Castor oil on the contrary dissolves completely, just like
+olive oil, and hence cannot be detected therein by this method. To
+detect this oil we must take the melting point of the acids along
+with the solubility of the oil itself in alcohol.</p>
+
+<p>Olive oil when mixed with 25 per cent. of cotton seed oil yields
+a granular precipitate, and so does 25 per cent. of sesame. Smaller
+quantities cannot be detected by these methods. For rape oil the
+limit is 50 per cent., and in smaller quantities the oil does not
+collect on the alcoholic solution. The decided lowering of the
+melting point of the fatty acids in combination with the sulphur
+reaction, and the insolubility of the oil in alcohol, also furnish
+a method of detecting when present in smaller quantities in olive
+oil.</p>
+
+<p>Although I am well aware that I am making public a research that
+is by no means free from objections, I nevertheless believe that it
+may be of use to those who have to undertake the ticklish and
+intricate analyses of commercial fats.--<i>Translated from the
+Chemiker Zeitung</i>, p. 355.</p>
+
+<p>Leipsic, Jan., 1883.</p>
+
+<hr>
+<a name="21"></a>
+
+<h2>ON THE THEORY OF THE FORMATION OF COMPOUND ETHERS.</h2>
+
+<p>In a note presented to the Industrial Society of Mulhouse, A.
+Pabst discusses the different stages in the formation of compound
+ethers, as Williamson has explained the production of ordinary
+ethers by the action of sulphuric acid upon alcohol. Pabst has
+observed that the compound ethers are formed in an analogous
+manner. If alcohol, sulphuric acid, and acetic acid are heated
+together, acetic ether, we know, is formed.</p>
+
+<p>Pabst has shown that it takes place in three stages. In the
+first stage, ethyl sulphuric acid and water are formed; in the
+second, acetate of ethyl with the reproduction of sulphuric acid,
+which again converts a fresh quantity of alcohol into ethyl
+sulphuric acid.</p>
+
+<p>(1) C<sub>2</sub>H<sub>5</sub>OH+HO,SO<sub>2</sub>OH =
+C<sub>2</sub>H<sub>5</sub>O,SO<sub>2</sub>OH+H<sub>2</sub>O.<br>
+ (Alcohol.) (Sulphuric acid.) (Ethyl sulphuric acid.)</p>
+
+<p>(2)
+C<sub>2</sub>H<sub>5</sub>O,SO<sub>2</sub>OH+C<sub>2</sub>H<sub>3</sub>O,OH
+=<br>
+ (Ethyl sulphuric acid.) (Acetic acid.)</p>
+
+<p>
+C<sub>2</sub>H<sub>5</sub>O,C<sub>2</sub>H<sub>3</sub>O+HO,SO<sub>2</sub>HO.<br>
+
+ (Acetate of ethyl.) (Sulphuric acid.)</p>
+
+<p>Pabst proved this by letting methyl sulphuric acid act upon a
+mixture of acetic acid and ethyl alcohol. He obtained by this
+process acetate of methyl and ethyl sulphuric acid. By the
+continued action of ethyl alcohol and acetic acid upon this
+mixture, of course, acetate of ethyl was formed. At the conclusion
+of the operation there was no longer any methyl sulphuric acid
+present in the liquid.</p>
+
+<p>In the course of his investigations, Pabst was led to a very
+practical method for preparing acetate of methyl, which consists in
+heating ethyl sulphuric acid to 135&deg; or 140&deg; C, and
+allowing a mixture of equal molecules of strong alcohol and acetic
+acid to flow into it.</p>
+
+<p>The details of his experiments and the method of purification
+will be published by the society.</p>
+
+<hr>
+<a name="16"></a>
+
+<h2>A GREEN OR GOLDEN COLOR FOR ALL KINDS OF BRASS.</h2>
+
+<h3>By E. PULCHER.</h3>
+
+<p>The French brass castings and articles of sheet brass are made
+of cheap, light colored brass, and possess a fine golden color
+which is not produced by gold varnish, but by a coating of copper.
+This gives them a finer appearance, so that they sell better.</p>
+
+<p>This golden color can be easily produced at very little expense
+and with but little trouble by the following process. Fifty grammes
+of caustic soda and 40 grammes of milk sugar are dissolved in a
+liter of water and boiled for a quarter of an hour. The solution is
+clear as water at first, but acquires a dark yellow color. The
+vessel is next taken from the fire, placed on a wooden support, and
+40 grammes of a cold concentrated solution of blue vitriol stirred
+in. A red precipitate of suboxide of copper is at once formed, and
+by the time the mixture cools to 167&deg; Fahr., the precipitate
+will have settled.</p>
+
+<p>A suitable wooden sieve is placed in the vessel, and on this the
+polished articles are laid. In about one minute the sieve is lifted
+up to see how far the operation has gone, and at the end of the
+second minute the golden color is dark enough.</p>
+
+<p>The sieve and articles are now taken out, and the latter are
+washed and then dried in sawdust. If the brass is left longer in
+the copper solution, in a short time a fine green luster is
+produced, becoming yellow at first and then bluish green. After it
+turns green, then the well-known iridescent colors finally appear.
+To obtain uniform colors it is necessary that they be produced
+slowly, which is attained at temperatures between 135&deg; and
+170&deg; Fahr.</p>
+
+<p>The copper bath can be used repeatedly and can be kept a long
+time if bottled up tightly without change. After it is exhausted it
+can be renewed by adding 10 grammes of caustic soda, replacing the
+water that has evaporated, heating to boiling, and adding 25
+grammes of a cold solution of blue vitriol.</p>
+
+<p>Similar operations with other well known reducing agents, such
+as tartrate of soda, glycerine, etc., do not give such good colors,
+because they do not precipitate the copper solution so rapidly and
+at so low a temperature.</p>
+
+<p>If the rinsed and pickled brasses are dipped for five minutes in
+a three per cent. neutral solution of cocoa nut oil soap, and then
+washed with water again before they dry, the coating gains in
+permanence.</p>
+
+<p>Brass articles that have to be cleaned frequently should be
+covered with oil of turpentine, or thin English copal
+varnish.--<i>Neueste Erfind</i>.</p>
+
+<hr>
+<a name="17"></a>
+
+<h2>VINEGAR.</h2>
+
+<p>Hermann Kratzer, of Leipsic, communicates the following
+practical information on the clarification and purification of
+vinegar to the <i>Neueste Erfindungen und Erfahrungen</i>:</p>
+
+<p>If vinegar has an unpleasant odor, which is rarer now that the
+vinegar manufacture has reached such a state of perfection, it may
+be removed as follows: Well burned and finely pulverized wood
+charcoal is put into the bottles containing the vinegar, the
+proportions being 8 grammes of charcoal to a liter of vinegar, or
+one ounce to the gallon. It is shaken several times very
+thoroughly, then left standing three or four days, and the vinegar
+filtered through a linen cloth. Vinegar treated in this manner will
+be found to have completely lost its unpleasant odor.</p>
+
+<p>I have found that when I used blood charcoal or bone coal in
+place of wood coal it was still more efficient; but it must be
+mentioned that when they are used they must be purified as follows
+before using: Charcoal from blood contains potash and hence it is
+necessary to wash it with distilled water and dry it before using
+it. Bone coal (also called bone black, animal charcoal, etc.)
+contains on an average 10 per cent. of nitrogenous and hydrogenated
+carbon, 8 per cent. of carbonate of lime, 78 per cent. of phosphate
+of lime, besides phosphate of magnesia, sulphate of lime, soluble
+salts, etc. Before using, it should be treated with dilute
+hydrochloric acid until it does not effervesce any more. The bone
+coal is then left to stand for 24 or 30 hours and at the end of
+this time is washed with distilled water until the wash water no
+longer reddens a blue piece of litmus paper, i.e., until every
+trace of hydrochloric acid has been removed from the bone coal.
+Wood charcoal may be treated in like manner. When this coal is
+perfectly dry it is employed in the same proportions as the other,
+8 to 1,000, the operation being exactly the same.</p>
+
+<p>He turns next to the clarification of the vinegar.</p>
+
+<p>It happens everywhere that vinegar instead of being clear is
+sometimes turbid. This is due to particles of yeast dissolved in
+the vinegar that have not yet settled. To remove this kind of
+turbidity it is customary to use oak or beech shavings that have
+been washed in hot water and then dried. These shavings, which must
+be very long and extremely thin, are put in a barrel with a second
+and perforated bottom, to a depth of 12 to 34 inches. The vinegar
+that runs through them deposits its slimy constituents on the
+shavings and becomes perfectly clear, and presents to the eye a
+pleasing appearance.</p>
+
+<p>To this generally known method I would add a few more:</p>
+
+<p>1. I take a &frac12; kilo of well pulverized <i>animal
+charcoal</i> (black burned bones) to 7/8 of a hectoliter of vinegar
+(1 lb. to 20 gallons), and stir it well with a wooden rod; or, if
+the vinegar is in bottles, I shake it a long time after putting the
+animal charcoal in the bottle, and repeat it several times. After
+three or four days I finally filter the vinegar through linen, when
+the filtrate will exhibit the desired clearness.</p>
+
+<p>2. The best way to clarify vinegar is with <i>isinglass</i>. It
+is first broken up, then swelled for a day in vinegar (17 or 18
+grammes to the liter), then 2 liters of vinegar are added and the
+mass boiled until the isinglass is completely dissolved. Such a
+solution as this (&frac12; ounce to 3 quarts) is mixed with
+10&frac14; hectoliters (250 gallons) of turbid vinegar and well
+stirred through it. After the expiration of five or six weeks
+vinegar treated in this way has a beautifully clear appearance.</p>
+
+<p>3. <i>Albumen</i> can likewise be used to clarify it. The
+vinegar is boiled with the albumen until the latter is completely
+coagulated, and then the vinegar is filtered.</p>
+
+<p>4. And finally <i>milk</i> may be employed. For this purpose the
+milk is skimmed, and 1 quart of milk added for every 68 quarts of
+vinegar, the mixture well stirred and shaken. After the caseous
+portion has coagulated (curdled) it is filtered as before, and in
+this case, too, the product is a fine, clear vinegar.</p>
+
+<p>We believe that these few experiments, so easily performed, and
+at so small an expense, will prove useful to our readers in
+enabling them to put their product in the market in an excellent
+condition and nicely clarified.</p>
+
+<hr>
+<a name="22"></a>
+
+<h2>THE ALIZARINE INDUSTRY.</h2>
+
+<p>At a recent meeting of the Manchester section of the Society of
+Chemical Industry, Mr. Ivan Levinstein described the history and
+progress of the manufacture of alizarine, from which are produced
+fast red, purple, brown, and black dyes. He said alizarine was,
+until very recently, made only from the root of the madder plant,
+of which the yearly crop was 70,000 tons, and represented an annual
+value of &pound;3,150,000, of which the United Kingdom consumed
+23,000 tons, representing a value of nearly &pound;1,000,000.</p>
+
+<p>Madder is now no longer grown for this purpose. The German
+chemists found that alizarine produced from madder in undergoing
+certain treatment gave a substance identical with anthracine, one
+of the constituents of coal tar, and in 1869 the same chemists
+announced to the world that they had accomplished the synthesis of
+alizarine from anthracine. The effect of this discovery was to
+throw madder out of cultivation.</p>
+
+<p>Mr. Perkin, an English chemist, and Messrs. Graebe and
+Liebermann, German chemists, almost simultaneously applied for
+patents in 1869, in England, and as their methods were nearly
+identical they arranged priorities by the exchanging of licenses.
+The German license became the property of the Badische Aniline
+Company, and the English license became the property of the
+predecessors of the North British Alizarine Company. These patents
+expire in about two months, and the lecturer explained that an
+attempt made by the German manufacturers to further monopolize this
+industry (even after the expiry of the patent) proved abortive. He
+also stated that alizarine, 20 per cent. quality, is sold to-day at
+2s 6d. per lb., but that if the price were reduced by one-half
+there will still be a handsome profit to makers, and that the
+United Kingdom is the largest consumer, absorbing one-third of the
+entire production, and that England possesses advantages over all
+other countries for manufacturing alizarine--first, by having a
+splendid supply of the raw material, anthracine; secondly, cheaper
+caustic soda in England than in Germany by fully &pound;4 per ton;
+thirdly, cheaper fuel; fourthly, large consumption at our own
+doors; and, fifthly, special facilities for exporting.</p>
+
+<p>The advantages derived from the development of the alizarine
+manufacture here, it was stated, will benefit other collateral
+industries, such as manufacture of soda, of ordinary sulphuric
+acid, bichromatic, and chlorate of potash, articles used in this
+manufacture. The lecturer considered that the difficulties
+attending the manufacture of alizarine were now overcome, and with
+sufficient capital and competent chemists English manufacturers
+must be successful.</p>
+
+<p>He then proceeded to explain the source from which nearly all
+the artificial coloring matters are derived, viz., gas tar; showing
+the principal products of this wonderful, complex mixture, of which
+one is anthracine. Alizarine manufacturers originally found
+scarcity of anthracine; at present the supply is in excess of the
+demand, and the price during the last 18 months has fallen from 3s.
+6d. to 1s. per unit, and the probabilities are that the supply will
+increase. The quantity of gas tar now obtained the lecturer
+estimated at 500,000 tons per annum, and the coal carbonized for
+gas making, 10,000,000 tons. This quantity of tar suffices to
+produce 9,000 tons of 20 per cent. alizarine.</p>
+
+<p>The lecturer then reviewed, in case of an increased demand for
+anthracine, the probable new sources of obtaining increased
+supplies of coal tar: (1) The destructive distillation of
+petroleum; (2) coke ovens and blast furnaces; (8) the carbonization
+of coal for general manufacturing purposes, using the coal and gas
+as fuel, and giving tar, benzine, and ammonia as residues; and (4)
+distillation of coal with the object of obtaining the principal
+products, tar and benzine, and as the residual product, gas. This
+part of the lecture was important to dyers and printers, the
+lecturer showing also, in a very interesting way, in what manner
+manufacturers may very considerably economize their consumption of
+coal.</p>
+
+<p>The lecturer explained that while from one ton of coal there was
+obtained on an average about 17 oz. of benzine, by the new method
+about thirty times that amount can be got from the same quantity of
+coal. He also considered in great detail the different processes of
+the carbonization of coal, and of increasing the production of the
+different important residual products of gas tar, and also the best
+method of extracting the benzine. He showed samples of benzine
+which he produced from gas obtained at the Rochdale Road Gasworks,
+and, further, nitro-benzine, aniline, and coloring matters, which
+he had made from this gas benzine.</p>
+
+<p>The lecturer also discussed the effect of the probable increased
+production of tar, ammonia, benzine, etc., as affecting gas
+companies, and said it was anticipated they either would raise the
+price of gas or change the present system of manufacture, which he
+considered probable. The enormous increase in the production of
+ammonia, of which the larger portion at present, as sulphate of
+ammonia, was used as a fertilizer, would no doubt considerably
+reduce its value. It might even replace soda for many purposes, and
+thus react on our alizarine industry.</p>
+
+<p>He then proceeded to consider the manufacture of alizarine
+purpurine, and divided its manufacture into four stages: 1, the
+purification of crude anthracine; 2, the conversion of the purified
+anthracine into anthraquinone; and 3, the production of sulpho acid
+of anthraquinone and the conversion of this sulpho-acid into
+alizarine and purpurine. This part of the lecture comprised a
+detailed explanation of the various kinds of apparatus required, to
+be used which were beautifully got up, complete working models
+having been prepared for the occasion. The lecturer was of opinion
+that large consumers would be benefited if makers would offer for
+sale only three distinct coloring matters--iso or anthrapurpurine,
+and flavo-purpurine, leaving it to the dyers and printers to
+produce for themselves the intermediate shades by mixing the three
+colors; and he showed that by reason of the fastness of the shades
+produced by these coloring agents varying considerably, the blue
+shade (alizarine) being much faster then the orange shade
+(flavo-purpurine), consumers were in many instances losers by using
+mixtures of alizarine and flavo-purpurine.</p>
+
+<p>In the course of the lecture many interesting specimens of
+various products were produced and dilated upon, the lecturer fully
+describing the process of purifying the crude anthracine and of the
+conversion of the purified anthracine into anthraquinone.</p>
+
+<hr>
+<a name="18"></a>
+
+<h2>THE PRESERVATION OF MEAT BY CARBONIC ACID.</h2>
+
+<p>Since 1874, when Professor Kolbe, of Leipsic, first published
+his results on the antiseptic action of salicylic acid, he has made
+many efforts to apply this acid to the preservation of meat, but he
+has invariably found that after the lapse of a few days an
+unpleasant flavor has been developed, which is not that of
+putridity. If putrid changes be noticed, it is a sign that
+salicylic acid is in insufficient quantity, for where it has turned
+putrid the meat is found to be no longer acid, but alkaline. This
+leads to the assumption that meat is protected from change by
+acids, even by gases of that kind; and in fact it was noticed that
+beef--from 2 to 5 kilos. being taken--when placed in an earthen
+vessel and loosely covered with a wooden cover, was long preserved
+from putridity if the bottom of the vessel contained some
+hydrochloric acid, nitric acid, or aqueous sulphurous acid. The
+meat, however, no longer had the taste of fresh meat, but of such
+as had long lain in ice. Experiments were therefore made with
+carbonic acid, and these proved highly successful. The meat was
+placed in a cylinder of metal plate, and suspended from a rod which
+crossed the upper part and the lower part. A small tube serves to
+admit a current of carbonic acid from a Kipp's apparatus. The lid,
+which rested in a circular trough of glycerine, was traversed by a
+similar tube in its center, and both tubes could be closed with
+India-rubber tubing and screw taps as soon as sufficient carbonic
+acid gas had traversed the apparatus. At the end of seven,
+fourteen, and twenty-one days it was found that the meat was still
+quite good, and the soup prepared from it was in every respect
+excellent. At the end of the fourth or fifth week the meat thus
+preserved in the gas was still quite free from all putridity; but
+the broth prepared from it no longer tasted so well as fresh
+bouillon. The experiments were not extended over a longer time.
+Carbonic acid is thus shown to be an excellent means of preserving
+beef from putridity and of causing it to retain its good taste for
+several weeks. Mutton does not preserve so well. In eight days it
+had become putrid; and veal is by no means so well preserved as
+beef. The comportment of beef in an atmosphere of carbonic acid, to
+which carbonic oxide has been added, is curious. A number of
+cylinders were filled in the usual way with such a mixture and
+opened at the end of two or three weeks; in each case the flesh had
+the smell and taste of good, pure meat, but it was not of the gray
+color which meat preserved in carbonic acid gas gradually takes,
+but appeared in the interior, as well as on the outside, of a
+bright flesh-red color, and on the surface here and there, there
+were white round masses of fungoid growth of the size of a
+20-pfenning piece, which were removed with the slightest rubbing.
+The flesh lying just below these was found to have the same bright
+red color as that already described. Meat which had been for three
+weeks in such a gas mixture gave a broth which, in good taste and
+freshness, could hardly be distinguished from freshly-made
+bouillon; and the boiled meats could not be distinguished either in
+appearance or taste. The property of carbonic acid to preserve meat
+suggests a use for the large supplies of this gas evolved from the
+earth in many localities. And it is as interesting to determine in
+how far the gas could be of service as an antiseptic during
+surgical operations.</p>
+
+<hr>
+<a name="23"></a>
+
+<h2>REDUCTION OF OXIDIZED IRON BY CARBONIC OXIDE.</h2>
+
+<p>IT is well known that when the heat is sufficient, carbonic
+oxide reduces the oxide of iron to metal with the production of
+carbon dioxide (carbonic acid). On the other hand, at lower
+temperatures carbon dioxide oxidizes metallic iron, forming
+carbonic oxide. J. Lowthian Bell's celebrated researches (see
+SCIENTIFIC AMERICAN, p. 199, March 31, 1883) established the point
+of equilibrium where in the presence of both monoxide and dioxide
+the reducing action of the one just counterbalances the oxidizing
+action of the other.</p>
+
+<p>At the suggestion of Prof. R. Akermann, of Stockholm, C.G.
+S&auml;rnstrom has conducted a similar series of forty-five
+experiments, the expense being borne by the Jernkontor. About 1
+gramme of oxide of iron was placed in a porcelain boat, and slid in
+a porcelain tube 18 millimeters (&frac34; inch) in diameter and 635
+millimeters long (25 inches). This was exposed to the action of a
+current of mixed carbon dioxide and monoxide made by heating oxalic
+acid and concentrated sulphuric acid. It was mixed with carbon
+dioxide as required, then analyzed, and preserved in gasometers
+holding 66 liters. Before using, it is passed over phosphorus and
+chloride of calcium, and through sulphuric acid. The porcelain tube
+and boat were heated to from 300&deg; to 600&deg; C. (572&deg; to
+1,652&deg; Fahr.) while the gases were passing, and then the state
+of oxidation determined. It was found that the larger the quantity
+of dioxide the higher the degree of oxidation, and the larger the
+proportion of monoxide the lower the degree of oxidation.</p>
+
+<p>The details of the experiment indicate that a saving of fuel in
+the blast furnace could best be accomplished by the use of a very
+hot blast, introducing some carbon monoxide into the blast,
+provided, of course, that this gas can be made outside of the blast
+furnace more cheaply than inside of it. Nevertheless, 643 lb. of
+carbon must be burned to every 1,000 lb. of iron reduced, if
+carbonic oxide is exclusively employed.--<i>Stahl und
+Eisen</i>.</p>
+
+<hr>
+<a name="19"></a>
+
+<h2>ON THE ADULTERATION OF SOAP.</h2>
+
+<h3>By Dr. H. BRACKEBUSCH.</h3>
+
+<p>The importance of soap as an indispensable article in the
+household has not restrained the adulterators from making it a
+favorite object of their operations, and at the present day soap is
+only very rarely what it should be, the alkaline salt of a fatty
+acid with about 15 per cent. of water, which may be increased in
+case of soft soaps to 30 per cent. at most. The amount of moisture
+is an immediate signal for adulteration. Of all substances that can
+be used to adulterate soap, water is of course the cheapest, and as
+it is also harmless, this was the first point where manufacturers
+made use of their knowledge. The percentage of water was raised to
+26 or 28 per cent., and now nearly all the ordinary soaps contain
+that amount when they leave the factory. At first the retailers
+objected to this method, because they had to suffer the loss so far
+as it dried out and lost weight in the store.</p>
+
+<p>The next point was to find some substance that would prevent
+this rapid drying, and it was very soon discovered that those soaps
+that contained an excess of lye retained moisture longer.
+Henceforth it was only necessary to use lyes of extra strength so
+as to obtain a large yield of soap containing an excess of water.
+The results of this ingenious method are before us; in the shops of
+the soap dealers the bars of soap become coated with a crust of
+white crystals, which is nothing but soda. If a few drops of
+corrosive sublimate be dropped on these crystals, a red spot will
+at once be produced by the formation of mercuric oxide. In addition
+to the deception of the public who buy such soaps, this alkali
+destroys clothes washed with it, as the fiber of the tissues is
+directly attacked by it, while the proper action of the soap
+depends on its enveloping the particles of dirt and carrying them
+off.</p>
+
+<p>Soap is subject to another kind of adulteration called filling,
+or weighting. Soapstone and similar mineral substances are added to
+the finished soap to increase its weight. But it may be added that
+this fraudulent weighting is rare. Large establishments cannot take
+the risk of being detected in such avaricious practices, and small
+ones scarcely have the apparatus at their disposal for making a
+uniform mixture which will not arouse suspicion.</p>
+
+<p>Now soaps are frequently found in the market that scarcely
+deserve this name. Mineral soap, cold water soap, etc., are the
+names inscribed on the placards behind which is buried a
+preparation consisting for the greater part of water-glass. The
+well-known water-glass is a silicate of soda or potash dissolved in
+free or caustic soda, or potash. There was a time when it excited
+great hopes, and its introduction into the household for washing
+was dreamed of, but it was soon found that its caustic properties
+made their appearance at a relatively low temperature. Hence we
+often find the notice, "TO BE USED COLD," printed in bold letters
+on the wrappers. This product is obtained by thickening water-glass
+with stearine, oleine, or any other easily saponifiable fat. As it
+takes but very little of the substances named to make an article
+closely resembling soap, of course the product is very cheap. There
+does not seem to be any limit to the amount of water in it; at
+least the author found in one kind of mineral soap from Berlin 58
+per cent. of water. Water-glass soaps do not dissolve readily in
+water, they make but little suds, and render the skin hard and
+unpliable. Admitting that they are suitable for many purposes,
+nothing can be said against their sale so long as they appear under
+names which preclude their being confounded with other soaps.
+Nevertheless, there is always this danger--that water-glass may
+come into general use in making soap, and this is to be deplored.
+Water-glass soaps are easily recognized by their insolubility in
+moderately strong alcohol, the water-glass remaining behind in a
+gelatinous form.</p>
+
+<p>Great deception has been practiced under such names as "almond
+soap," etc. Fortunately the difference between various kinds of fat
+are not very great from a chemical point of view, although it is
+always an unpleasant thought that the fat from animals that have
+died may return to the house in the form of soap. A white or yellow
+soap having a good smell is not made from bad fat, and hence is
+more appetizing.</p>
+
+<p>A method formerly much in use consisted in mixing green soap
+with starch paste, a mixture that could not be detected by the
+naked eye, especially if colored with caramel. On attempting to
+dissolve it in ordinary burning alcohol, a white coagulum
+forms.</p>
+
+<p>From the foregoing it is sufficiently evident that those who buy
+soap to sell again have every reason to keep a sharp lookout on
+those who furnish them with soap.--<i>Polyt. Notiz.</i></p>
+
+<hr>
+<a name="24"></a>
+
+<h2>BOVINE AND HUMAN MILK: THE DIFFERENCE IN ITS ACTION AND
+COMPOSITION.</h2>
+
+<h3>By C. HUSSON.</h3>
+
+<p>M. Meynet, in a remarkable report upon condensed milk, has
+raised a question which it is important to have solved in the
+interests of infants. This is my excuse for presenting to the
+French Society of Hygiene certain observations on this subject.</p>
+
+<p>Is woman's milk richer in fatty matters and sugar in proportion
+to the caseine than that of the cow? Is the affirmative, sustained
+by a large number of chemists, a mistake that ought to be
+corrected?</p>
+
+<p>Such is the question that needs to be answered.</p>
+
+<p>In my last work on milk, my aim was to report new experiments,
+and hence I gave only the analysis of M. Colawell. By the side of
+the essays of MM. Doy&egrave;re, Millon, Commaille, and Wurtz, I
+put those of Liebig, and quoted an interesting chapter written on
+this question by M. Caulier, in Dechambre's Encyclopedic
+Dictionary. These are the authorities upon which to base any
+opposition to the analyses of Boussingault, Regnault, Littre, and
+Simon, savants of no less renown.</p>
+
+<p>The differences are easily explained.</p>
+
+<p>Woman's milk is rarely to be had in sufficient abundance to make
+a complete analysis of it. In the country especially a few precious
+drops, obtained with difficulty, are carried off in a thimble to be
+placed under a microscope, where the number of fat globules are
+counted, and it is examined to see if they are not mixed with
+globules of colostrum.</p>
+
+<p>It will be necessary at the outset to know whether the analyses
+given refer to milk drawn from the breast before nursing, or at the
+end. In the former case there will be an excess of caseine, in the
+second an excess of fat present. This is the reason that in nursing
+infants the intervals should not be too long, or the child will not
+be able to empty the breast completely, and it will obtain a milk
+too rich in caseine, too poor in butter, and one that it cannot
+digest.</p>
+
+<p>This is the first proof of the importance of fatty matters for
+the alimentation of babes.</p>
+
+<p>Let us turn to the second.</p>
+
+<p>At birth, when the milk is still in a state of colostrum, the
+fluid contains a variable quantity of albumen coagulable by heat,
+much less caseine, and an excess of butter and sugar.</p>
+
+<p>Cow's milk, immediately after calving, contains more butter and
+less caseine than milk produced some time later, when the specific
+character of ruminants begins to appear in the calf, that is to
+say, when it commences to graze the milk coagulates in the stomach.
+As in other mammals, an excess of fat helps digestion by
+subdividing the caseine and emulsifying it. But the milk of an
+animal recently calved is reserved for its young, and it is not
+until the time of weaning that the lacteal fluid is offered for
+human consumption.</p>
+
+<p>Thus it is that the nursling of a day receives milk many months
+old and heavily loaded with caseine. This milk it cannot digest
+because the emulsifying element, the fat, is not present in it in
+sufficient quantity in proportion to the coagulable matter. We must
+not forget either that the difference in coagulation holds also
+with respect to difference in the age and in the kind of animal.
+Just so the rennet of a sucking calf has a greater power of
+coagulating cow's milk than that of a sheep, and <i>vice
+versa</i>.</p>
+
+<p>"Clinical observation," says Dr. Condereau, "shows that all
+young infants digest human milk very easily and cow's milk very
+imperfectly. When it is fed on the latter, in the excreta will be
+found numerous fragments, sometimes very bulky, of undigested
+caseine. In most cases this caseine suffers more or less
+decomposition in the alimentary canal, which gives to the feces a
+tainted odor recalling that of putrid Roquefort cheese.</p>
+
+<p>"The excrement vary in appearance as much as they do in odor.
+Frequently the caseous clots are not to be seen, and the stool has
+a clammy look reminding one of glazier's putty, while the color
+varies from dirty white to pale grayish yellow. That is due to the
+fact that the composition of the milk from different animals is far
+from being constant.</p>
+
+<p>"The proportions of albumen to those of caseine are especially
+varied. For woman's milk the proportions are as 100 to 122.72. In
+goat's milk the proportions are 100 to 173.09. In cow's milk it is
+as 100 to 289.20.</p>
+
+<p>"The conclusion is this: Caseine is not a food at all for the
+new born during a space of time, the duration of which is to be
+determined experimentally.</p>
+
+<p>"This substance is a harmful burden that interferes with the
+regular action of the digestive organs. It is a premature food, and
+the more abundant the more injurious.</p>
+
+<p>"Albumen on the contrary remains fluid in the presence of the
+gastric juice; it is separated from the other aliments by
+coagulation of the caseine. It is absorbed entire either in its
+natural state or in form of peptone."</p>
+
+<p>According to clinical observation, it is still the fats that
+give to milk its hygienic value, and the excess of caseine is an
+obstacle to its digestion.</p>
+
+<p>However, if cow's milk is not easily digested by children,
+experience proves that there are other kinds of milk, from other
+animals, which young stomachs are able to bear more easily. There
+are many proofs of this fact.</p>
+
+<p>M. Tarnier, speaking before the Academy of Medicine on the
+artificial nourishment of the new born, reports that the milk of
+cows and goats, pure or diluted in different ways, that of
+condensed milk and Biedert's cream, have always given disastrous
+results at the Maternite in Paris, but that the mortality of the
+new born was considerably reduced from the day when ass's milk was
+introduced as food.</p>
+
+<p>Ass's milk was given pure for six weeks or two months; then
+cow's milk diluted with one-half water until six months old,
+followed by pure cow's milk. This is the most rational course of
+artificial feeding.</p>
+
+<p>Prof. Parrot reports analogous results obtained at the nursery
+opened at the Hospice des Enfants Assistes. By the aid of ass's
+milk he saved a number of the little syphilitics.</p>
+
+<p>The following are the numerical results: 86 infants with
+hereditary taint of syphilis have been at the nursery. Of 6 fed
+exclusively on cow's milk, only 1 survived and the other 5 died.
+Forty-two were suckled by goats, of which 8 lived, 34 are dead,
+which is equal to a mortality of 80.9 per cent. Thirty-eight were
+suckled by an ass, of which 28 lived and 10 died; a mortality of
+26.3 per cent.</p>
+
+<p>Certainly these figures prove eloquently enough what chemical
+analysis shows, that ass's milk, being better borne by the infant's
+stomach, ought to have a composition resembling that of woman's
+milk. This analogy is not found to consist in the quantity of fat,
+but in the small amounts of dry residue (total solids) and of
+caseine.</p>
+
+<p>Let us now examine the objections raised by M. Meynet.</p>
+
+<p>Food has a considerable influence upon the composition of milk;
+this fact, stated by M. Riche in his treatise on chemistry, seem to
+be accepted by all.</p>
+
+<p>The milk of carnivor&aelig; is excessively rich in caseine; that
+of herbivor&aelig; much less.</p>
+
+<p>The food of woman, who enjoys a mixed alimentation, ought to
+have a composition intermediate between these two, and consequently
+ought to contain more caseine than that of the plant eaters. This
+is the logical deduction.</p>
+
+<p>At first this reasoning misleads one, but numerous objections
+present themselves.</p>
+
+<p>The food, no doubt, has some influence upon the composition of
+the milk of animals of the same species, but every animal can
+secrete something independent of any food, just as one kind
+secretes musk, another castor, etc. Yet it would not be an anomaly
+if an excess of caseine in proportion to the other substances was a
+true characteristic of ruminants.</p>
+
+<p>But we admit that the milk of all mammals ought to have
+identically the same composition if their food suffered no
+modifications.</p>
+
+<p>What is the food of ruminants? Without doubt it is essentially
+vegetable, and the plants of the field constitute the element par
+excellence of their nurture. These plants contain a large excess of
+carbohydrates in proportion to the nitrogenous.</p>
+
+<p>But what are these other substances? What role do they play in
+digestion?</p>
+
+<p>They are composed in great part of fibers and cells that suffer
+no change in the animal economy, and which are not acted upon by
+the gastric juice, as proved by their occurrence in excreta. The
+carbon is found almost unchanged, so that the excrements of
+herbivoi&aelig;, when dried, form a valuable fuel. Ruminants are
+compelled, in order to obtain nourishment from the plants that they
+eat, to extract their juices by repeated pressure (as in chewing
+the cud); and what do these soluble juices contain? Some saccharine
+substances, a little fat, but mostly albumen and vegetable caseine,
+that is to say, the substance which predominates in their lacteal
+secretions.</p>
+
+<p>What, on the contrary, is the food of woman?</p>
+
+<p>No doubt she gains much strength from the lean, muscular flesh
+that she eats, but besides this she has butter, oil, fats of all
+kinds, sugar, starches, and alcoholic beverages, all of which are
+favorable to the production of butter in the milk. Hence, aside
+from her physical constitution, the food of woman alone explains
+the relative excess of non-nitrogeneous substances.</p>
+
+<p>Nitrogenous articles of food are expensive, while the other
+forms of nutriment are to be had in the form of potatoes, beans,
+and bread, products sold at a reasonable price. Yet logic demands
+that there shall be an excess of butter in proportion to caseine in
+the milk.</p>
+
+<p>The discrepancies in analyses of woman's milk are easily
+explained by the mobile and impressible character of woman.</p>
+
+<p>If bad treatment and bee stings are able to modify the
+composition of cow's milk, how much more ought the emotions of all
+sorts, which disturb the heart and head of woman, to change the
+composition of her milk?</p>
+
+<p>But if new analyses seem to be needed, they ought to be made.
+This question is too important to rest in suspense. The mean
+composition of human milk for the first two months after delivery
+ought to be established. In chemistry, as in mathematics, figures
+alone are convincing. But from what has been said it is logical to
+conclude that an excess of caseine in milk is unfavorable to good
+digestion, while an excess of butter is favorable to
+it.--<i>Translated from Journal d'Hygiene, March 1, 1883</i>.</p>
+
+<hr>
+<a name="25"></a>
+
+<h2>CEREAL FOODS IN THEIR RELATION TO HEALTH AND DISEASE.</h2>
+
+<h3>By F.R. CAMPBELL, A.B., M.D.</h3>
+
+<p>The cereals are subject to many diseases which retard their
+development, rendering them unfit for food, and even poisonous. The
+relation of unwholesome foods to the diseases of the animal body
+are now being thoroughly studied, recent advances in chemistry and
+microscopy contributing valuable aid to the prosecution of such
+investigations. Some enthusiastic advocates of the germ theory of
+disease believe that many, if not all, the so-called disease germs
+may be transplanted into the human system with the food ingested.
+But whatever may be the real truth in regard to this subject, it
+has been positively demonstrated that many diseases of the human
+body may be produced by unwholesome food. The specific symptoms
+produced in man by the various grain diseases are not accurately
+known, consequently our remarks upon this subject must be of a very
+general character.</p>
+
+<p>Pappenheim divides the diseases of the cereals into two classes,
+internal and external. The internal diseases are those depending
+upon conditions of soil, climate, cultivation, etc., and may be
+neglected in our discussion, as they produce no special disease of
+the body, only impairing the nutritive value of the grain.</p>
+
+<p>The external diseases are of much greater importance, as they
+probably produce some of the most fatal maladies to which the human
+race is subject. These external diseases of the cereals are due to
+parasites, which may be either of an animal or vegetable nature.
+Among the animal parasites may be mentioned the <i>weevil, vibrio
+tritici</i>, which feeds upon the starch cells of the grain. Grain
+attacked by this parasite was at one time supposed to be injurious
+to health.</p>
+
+<p>In 1844 the French Commission appointed to examine grain
+condemned a large quantity imported with this parasite, but
+afterward reconsidered their decision and permitted its sale,
+concluding that it was deficient in nutritive properties, but not
+otherwise unwholesome. Rust is the most common disease of the
+cereals, produced by vegetable parasites. Like the other diseases
+of this class, it is most prevalent in warm, damp seasons.</p>
+
+<p>Prof. Hensboro is of the opinion that rust is but an earlier
+stage of mildew or blight, the one form of parasite being capable
+of development into the other, and the fructification
+characteristic of the two supposed genera having been evolved on
+one and the same individual.</p>
+
+<p>Blight is a term loosely applied to a number of parasitic
+diseases. In it are included mildew, cories, and even rust and
+smut. The fungi producing these diseases attack the plant and seed
+at various stages of its growth. The whole kernel is affected, and
+not merely the external coat, as is sometimes maintained. When
+blighted grain is sown, the disease recurs the following year,
+often making it necessary to import new seed before the disease can
+be eradicated. Various remedies have been used to destroy the
+spores of these fungi, but all are uncertain and some are dangerous
+to health. Special machinery and methods have been employed in the
+mills to separate the mildew from the grain. Some of these succeed
+in removing the fungi and discoloration from the surface of the
+grain, but have no effects upon the parts within. Blighted grain is
+soft, and has an unpleasant taste and smell, and bread made of it
+is liable to be heavy and sodden.</p>
+
+<p>It is undeniable that the use of blighted grain as food is
+exceeding dangerous to health. It is a well known fact that
+vegetable parasites may attack animals; the silk worm disease
+produced by the <i>Botrytis baniana</i>, being an example. It is
+stated that the same vegetable parasites which produce plant
+diseases, when transmitted to the animal body produce special
+affections, the form and appearance of the germs being altered by
+their environments. The same germs developed under different
+conditions of temperature and surrounding medium, assume forms so
+various that they have been supposed to belong to different species
+and even different genera. If there is any truth, then, in the germ
+theory of disease, it is not so very improbable that a fungus which
+will produce blight in grain may cause cholera or tetanoid fever in
+an animal.</p>
+
+<p>Hallier, the famous physiological botanist, observed in 1867
+that there was a peculiar disease of the rice plant associated with
+an epidemic of cholera. Rice plants fertilized with the discharges
+of cholera patients were affected with blight. A concentrated
+infusion of the blighted grain would produce changes in all animal
+substances, blood and albumen being converted into thin odorless
+products resembling in every respect the material found in the
+kidneys of cholera patients.</p>
+
+<p>The most formidable of the diseases attributed to the use of
+diseased grain is cerebro-spinal meningitis, commonly known as
+spotted or blanoid fever. The disease is rare in England, but is
+frequently epidemic in the United States, in Ireland, and on the
+Continent. In 1873, in the State of Massachusetts alone, 747
+persons died of it, and other epidemics even more fatal have lately
+occurred in New York and Michigan. The disease is a nervous fever
+attended with convulsions, the pathological lesion being congestion
+and inflammation of the membrane of the spinal cord and brain. Dr.
+Richardson in writing on the nature and causes of spotted fever
+concludes that it is due to the use of diseased vegetable
+substances, especially grain, and from a careful analysis of the
+statistics of this disease reported by the Michigan State Board of
+Health considers it demonstrated that "under favoring condition for
+its action diseased grain received as a food is the primary cause
+of the phenomena which characterize the disease." These views are
+substantiated by the experiments of Dr. H. Day, who found that by
+feeding rabbits on unsound grain, spasmodic affections were
+produced, due to inflammation of the membranes of the spinal cord
+and brain.</p>
+
+<p>In warm climates, pellagra or Italian leprosy is said to be
+produced by eating diseased maize, which forms the principal
+article of food among the poorer classes of the rural districts.
+Pellagra is epidemic in northern Italy and the south of France. The
+disease is manifested by a redness and discoloration of the exposed
+parts of the body. It is most active during the hot weather, the
+inflammation subsiding in the winter, leaving a pigmentation of the
+skin. Each year the symptoms become more alarming, nervous
+disorders finally setting in, and a large number die insane. The
+disease is most prevalent in the country. In the towns, where maize
+is supplemented by other articles of food, it does not exist.</p>
+
+<p>Ergot is a very common disease of the cereals. The fungus
+producing it was discovered in 1853, but for centuries previous its
+injurious effects upon the human body were recognized, and it was
+observed that ergot of rye was the most poisonous. Taken in large
+doses, ergot will produce nausea, vomiting, diarrhoea, headache,
+and weakness of the heart. In small repeated doses it will produce
+contraction of all the unstriped muscles, as those of the blood
+vessels, the womb, and intestines. Ergotium is the name given to
+the disease produced by the continued use of grain affected by this
+fungus. Aitken describes it as "a train of morbid symptoms produced
+by the slow and cumulative action of a specific poison peculiar to
+wheat and rye, which produces convulsions, gangrene of the
+extremities, and death. In countries where rye bread is much used
+ergotium is sometimes epidemic. This was a frequent calamity before
+the introduction of suitable purifiers into the mills. There are
+two varieties of the disease, the convulsive and the gangrenous.
+The convulsive form begins with tingling of the extremities,
+drowsiness, and headache, followed by pain in the joints, violent
+muscular contractions, and death. The gangrenous variety begins
+with coldness and weakness of the extremities followed by gangrene
+and sloughing. This form is somewhat more fatal than the
+convulsive, the mortality of those affected being about 90 per
+cent.</p>
+
+<p>Mouldy grain and bread have also caused poisoning. Prof. Varnell
+states that "six horses died in three days from eating mouldy oats.
+There was a large amount of matted mycelium, and this when given to
+other horses for experiment, killed them within thirty-six hours."
+The writer has himself seen seven hogs die within a few days while
+being fed on mouldy corn. Flour which has become stale may produce
+similar injurious effects, although most of the germs are destroyed
+in the process of baking. It is quite probable, however, that a
+poisonous substance is generated by the mould fungus, which cannot
+be destroyed in this way.--<i>Milling World</i>.</p>
+
+<hr>
+<a name="26"></a>
+
+<h2>MOIST AIR IN LIVING ROOMS.</h2>
+
+<p>The injurious effect of dry heat in inhabited rooms is quite
+generally known, and different methods have been suggested for
+moistening the air. To test the effectiveness of these methods, J.
+Melikow, of St. Petersburg, has estimated the quantity of moisture
+in the air of different rooms by means of August's psychrometer,
+and also tested the different methods of increasing the moisture.
+He arrived at the following results, which are of decided practical
+value:</p>
+
+<p>1. When large and small open vessels filled with water are
+placed in the room, they do not increase the moisture of the air at
+all.</p>
+
+<p>2. Tubs of water of the same temperature as the room and parlor
+fountains have very little effect.</p>
+
+<p>3. When hot air is used, open vessels of water placed over the
+pipes have no effect at all.</p>
+
+<p>4. Wolpert's revolving wheel increases the moisture but
+slightly.</p>
+
+<p>5. The Russian tea machine and the steam pulverizer (atomizer)
+are effective but only for a short time.</p>
+
+<p>6. Wet hand towels suspended in a room are insufficient.</p>
+
+<p>7. Of all the methods tested, the most efficient seemed to be to
+hang up a number of wet cloths on a winch or some contrivance that
+permits of turning them, so as to hasten their giving out moisture
+to the air.--<i>Med. Zeitung</i>.</p>
+
+<hr>
+<p>[The following article is from the June number of the
+<i>American Naturalist</i>, edited by Prof. A. S. Packard, Jr., and
+Prof. E. D. Cope. Published by McCalla &amp; Stavely, Philadelphia,
+Pa.]</p>
+
+<p><a name="27"></a></p>
+
+<h2>THE DEVELOPMENTAL SIGNIFICANCE OF HUMAN PHYSIOGNOMY.</h2>
+
+<p>[Footnote: Abstract of a lecture delivered before the Franklin
+Institute of Philadelphia, Jan. 20.1881, in exposition of
+principles laid down in The Hypothesis of Evolution, New Haven,
+1870, p. 31.]</p>
+
+<h3>By E. D. COPE.</h3>
+
+<p>The ability to read character in the form of the human face and
+figure is a gift possessed by comparatively few persons, although
+most people interpret, more or less correctly, the salient points
+of human expression. The transient appearances of the face reveal
+temporary phases of feeling which are common to all men; but the
+constant qualities of the mind should be expressed, if at all, in
+the permanent forms of the executive instrument of the mind, the
+body. To detect the peculiarities of the mind by external marks has
+been the aim of the physiognomist of all times; but it is only in
+the light of modern evolutionary science that much progress in this
+direction can be made. The mind, as a function of part of the body,
+partakes of its perfections and its defects, and exhibits parallel
+types of development. Every peculiarity of the body has probably
+some corresponding significance in the mind; and the causes of the
+former are the remoter causes of the latter. Hence, before a true
+physiognomy can be attempted, the origin of the features of the
+face and general form must be known. Not that a perfect physiognomy
+will ever be possible. A mental constitution so complex as that of
+man cannot be expected to exhibit more than its leading features in
+the body; but these include, after all, most of what it is
+important for us to be able to read, from a practical point of
+view.</p>
+
+<p class="ctr"><img src="images/12a.png" alt=""></p>
+
+<p class="ctr">FIG. 1.--Section of skull of adult orang-outang
+<i>(Simia<br>
+satyrus)</i>. FIG. 2.--Section of skull of young orang, showing<br>
+relatively shorter jaws and more prominent cerebral region.</p>
+
+<p>The present essay will consider the probable origin of the
+structural points which constitute the permanent expression. These
+may be divided into three heads, viz.:</p>
+
+<p>1. Those of the general form or figure.</p>
+
+<p>2. Those of the surface or integument of the body, with its
+appendages.</p>
+
+<p>3. Those of the forms of the head and face.</p>
+
+<p class="ctr"><img src="images/12b.png" alt=""></p>
+
+<p class="ctr">FIG. 3.--Figure of infant at birth; <i>a</i>, front
+of face. (The<br>
+eye is too far posterior in this figure.)</p>
+
+<p>The principal points to be considered under each of these heads
+are the following:</p>
+
+<h3>I. THE GENERAL FORM.</h3>
+
+<p>1. The size of the head.</p>
+
+<p>2. The squareness or slope of the shoulders.</p>
+
+<p>3. The length of the arms.</p>
+
+<p>4. The constriction of the waist.</p>
+
+<p>5. The width of the hips.</p>
+
+<p>6. The length of the leg, principally of the thigh.</p>
+
+<p>7. The sizes of the hands and feet.</p>
+
+<p>8. The relative sizes of the muscles.</p>
+
+<p class="ctr"><img src="images/12c.png" alt=
+"FIG. 4.--Portrait of a girl at five years of age."></p>
+
+<p class="ctr">FIG. 4.--Portrait of a girl at five years of
+age.</p>
+
+<h3>II. THE SURFACES.</h3>
+
+<p>9. The structure of the hair (whether curled or not).</p>
+
+<p>10. The length and position of the hair.</p>
+
+<p>11. The size and shape of the nails.</p>
+
+<p>12. The smoothness of the skin.</p>
+
+<p>13. The color of the skin, hair, and irides.</p>
+
+<p class="ctr"><img src="images/12d.png" alt=""></p>
+
+<p class="ctr">FIG. 5.--Portrait of the same at seventeen years,
+showing<br>
+the elongation of the facial region, and less protuberance<br>
+of the cerebral.</p>
+
+<h3>III. THE HEAD AND FACE.</h3>
+
+<p>14. The relative size of the cerebral to the facial regions.</p>
+
+<p>15. The prominence of the forehead.</p>
+
+<p>16. The prominence of the superciliary (eyebrow) ridges.</p>
+
+<p>17. The prominence of the alveolar borders (jaws).</p>
+
+<p>18. The prominence and width of the chin.</p>
+
+<p>19. The relation of length to width of skull.</p>
+
+<p>20. The prominence of the malar (cheek) bones.</p>
+
+<p>21. The form of the nose.</p>
+
+<p>22. The relative size of the orbits and eyes.</p>
+
+<p>23. The size of the mouth and lips.</p>
+
+<p class="ctr"><img src="images/12e.png" alt=""></p>
+
+<p class="ctr">FIG. 6.--Profile of a Luchatze negro woman,<br>
+showing deficient bridge of nose and chin, and elongate facial
+region<br>
+and prognathism.</p>
+
+<p>The significance of these, as of the more important structural
+characters of man and the lower animals, must be considered from
+two standpoints, the paleontological and the embryological. The
+immediate paleontological history of man is unknown, but may be
+easily inferred from the characteristics displayed by his nearest
+relatives of the order Quadrumana. If we compare these animals with
+man, we find the following general differences. The numbers
+correspond to those of the list above given:</p>
+
+<p>I. <i>As to General Form</i>.--(3) In the apes the arms are
+longer; (8) the extensor muscles of the leg are smaller.</p>
+
+<p>II. <i>As to Surface</i>.--(9) The body is covered with hair
+which is not crisp or woolly; (10) the hair of the head is short;
+(18) the color of the skin, etc., is dark.</p>
+
+<p>III. <i>As to Head and Face</i>.--(14) The facial region of the
+skull is large as compared with the cerebral; (15) the forehead is
+not prominent, and is generally retreating; (16) the superciliary
+ridges are more prominent; (17) the edges of the jaws are more
+prominent; (18) the chin is less prominent; (20) the cheek bones
+are more prominent; (21) the nose is without bridge, and with short
+and flat cartilages; (22) the orbits and eyes are smaller (except
+in Nyctipithecus); (24) the mouth is small and the lips are
+thin.</p>
+
+<p class="ctr"><img src="images/12f.png" alt=""></p>
+
+<p class="ctr">FIG. 7.--Face of another negro, showing flat nose,
+less<br>
+prognathism and larger cerebral region. From Serpa<br>
+Pinto.</p>
+
+<p>It is evident that the possession of any one of the above
+characteristics by a man approximates him more to the monkeys, so
+far as it goes. He retains features which have been obliterated in
+other persons in the process of evolution.</p>
+
+<p class="ctr"><img src="images/12g.png" alt=""></p>
+
+<p class="ctr">FIG.8.--Portrait of Satanta, a late chief of the<br>
+Kiowas (from<br>
+the Red river of Texas), from a photograph. The predominance<br>
+of the facial region, and especially of the<br>
+malar bones, and the absence of beard, are noteworthy.</p>
+
+<p>In considering the physiognomy of man from an embryological
+standpoint, we must consider the peculiarities of the infant at
+birth. The numbers of the following list correspond with those
+already used (Fig. 3).</p>
+
+<p>I. <i>As to the General Form</i>.--(1) The head of the infant is
+relatively much larger than in the adult; (3) the arms are
+relatively longer; (4) there is no waist; (6) the leg, and
+especially the thigh, is much shorter.</p>
+
+<p>II. <i>As to the Surfaces</i>.--(10) The body is covered with
+fine hair, and that of the head is short.</p>
+
+<p>III. <i>The Head and Face</i>.--(14) The cerebral part of the
+skull greatly predominates over the facial; (16) the superciliary
+ridges are not developed; (17) the alveolar borders are not
+prominent; (20) the malar bones are not prominent; (21) the nose is
+without bridge and the cartilages are flat and generally short;
+(22) the eyes are larger.</p>
+
+<p class="ctr"><img src="images/12h.png" alt=""></p>
+
+<p class="ctr">FIG. 9.--Australian native (from Brough Smyth),
+showing<br>
+small development of muscles of legs and prognathism.</p>
+
+<p>It is evident that persons who present any of the characters
+cited in the above list are more infantile or embryonic in those
+respects than are others; and that those who lack them have left
+them behind in reaching maturity.</p>
+
+<p>We have now two sets of characters in which men may differ from
+each other. In the one set the characters are those of monkeys, in
+the other they are those of infants. Let us see whether there be
+any identities in the two lists, i. e., whether there be any of the
+monkey-like characters which are also infantile. We find the
+following to be such:</p>
+
+<p>I. <i>As to General Form</i>.--(3) The arms are longer.</p>
+
+<p>II. <i>Surface</i>.--(10) The hair of the head is short, and the
+hair on the body is more distributed.</p>
+
+<p>III. <i>As to Head and Face</i>.--(21) The nose is without
+bridge and the cartilages are short and flat.</p>
+
+<p>Three characters only out of twenty-three. On the other hand,
+the following characters of monkey-like significance are the
+opposites of those included in the embryonic list: (14) The facial
+region of the skull is large as compared with the cerebral; (15)
+the forehead is not prominent; (16) the superciliary ridges are
+more prominent; (17) the edges of the jaws are more prominent. Four
+characters, all of the face and head. It is thus evident that in
+attaining maturity man resembles more and more the apes in some
+important parts of his facial expression.</p>
+
+<p class="ctr"><a href="images/13a.png"><img src=
+"images/13a_th.jpg" alt=""></a></p>
+
+<p class="ctr">Esequibo Indian woman, showing the following<br>
+peculiarities: deficient bridge of nose, prognathism, no waist,<br>
+and (the<br>
+right hand figure) deficiency of stature through short femur.<br>
+From photographs by Endlich.</p>
+
+<p>It must be noted here that the difference between the young and
+embryonic monkeys and the adults is quite the same as those just
+mentioned as distinguishing the young from the adult of man (Figs.
+1 and 2). The change, however, in the case of the monkeys is
+greater than in the case of man. That is, in the monkeys the jaws
+and superciliary ridges become still more prominent than in man. As
+these characters result from a fuller course of growth from the
+infant, it is evident that in these respects the apes are more
+fully developed than man. Man stops short in the development of the
+face, and is in so far more embryonic.[1] The prominent forehead
+and reduced jaws of man are characters of "retardation." The
+characters of the prominent nose with its elevated bridge, is a
+result of "acceleration," since it is a superaddition to the
+quadrumanous type from both the standpoints of paleontology and
+embryology.[2] The development of the bridge of the nose is no
+doubt directly connected with the development of the front of the
+cerebral part of the skull and ethmoid bone, which sooner or later
+carries the nasal bones with it.</p>
+
+<p>[Footnote 1: This fact has been well stated by C. S. Minot in
+the <i>Naturalist</i> for 1882, p. 511.]</p>
+
+<p>[Footnote 2: See Cope, The Hypothesis of Evolution, New Haven,
+1870, p. 31.]</p>
+
+<p class="ctr"><a href="images/13b.png"><img src=
+"images/13b_th.jpg" alt=""></a></p>
+
+<p class="ctr">The Venus of the Capitol (Rome). The form and
+face<br>
+present the characteristic peculiarities of the female of<br>
+the Indo-European race.</p>
+
+<p>If we now examine the leading characters of the physiognomy of
+three of the principal human sub-species, the Negro, the Mongolian,
+and the Indo-European, we can readily observe that it is in the two
+first named that there is a predominance of the quadrumanous
+features which are retarded in man; and that the embryonic
+characters which predominate are those in which man is accelerated.
+In race description the prominence of the edges of the jaws is
+called prognathism, and its absence orthognathism. The significance
+of the two lower race characters as compared with those of the
+Indo-European is as follows:</p>
+
+<p><i>Negro</i>.--Hair crisp (a special character), short (quadrum.
+accel.); prognathous (quadrum. accel.); nose flat, without bridge
+(quadrum. retard)[1]; malar bones prominent (quadrum. accel.);
+beard short (quadrum. retard.); arms longer (quadrum. accel.);
+extensor muscles of legs small (quadrum. retard.).</p>
+
+<p>[Footnote 1: In the Bochimans, the flat nasal bones are
+co-ossified with the adjacent elements as in the apes
+(Thuli&eacute;).]</p>
+
+<p><i>Mongolian</i>.--Hair straight, long (accel.); jaws
+prognathous (quadrum. accel.); nose flat or prominent with or
+without bridge; malar bones prominent (quadrum. accel.); beard none
+(embryonic); arms shorter (retard.); extensor muscles of leg
+smaller (quad. retard.).</p>
+
+<p><i>Indo-European</i>.--Hair long (accel.); jaws orthognathous
+(embryonic retard.); nose (generally) prominent with bridge
+(accel.); malar bones reduced (retard.); beard long (accel.); arms
+shorter (retard.); extensor muscles of the leg large (accel.).</p>
+
+<p>The Indo-European race is then the highest by virtue of the
+acceleration of growth in the development of the muscles by which
+the body is maintained in the erect position (extensors of the
+leg), and in those important elements of beauty, a well-developed
+nose and beard. It is also superior in these points in which it is
+more embryonic than the other races, viz., the want of prominence
+of the jaws and cheekbones, since these are associated with a
+greater predominance of the cerebral part of the skull, increased
+size of cerebral hemispheres, and greater intellectual power.</p>
+
+<p>A comparison between the two sexes of the Indo-Europeans
+expresses their physical and mental relations in a definite way. I
+select the sexes of the most civilized races, since it is in these,
+according to Broca and Topinard, that the sex characters are most
+pronounced. They may be contrasted as follows. The numbers are
+those of the list already used. I first consider those which are
+used in the tables of embryonic, quadrumanous, and race
+characters:</p>
+
+<pre>
+           MALE.                       FEMALE.
+               I. _The General Form_.
+   2. Shoulders square.          Shoulders slope.
+   4. Waist less constricted.    Waist more constricted.
+   5. Hips narrower.             Hips wider.
+   6. Legs longer.               Legs shorter (very frequently).
+   8. Muscles larger.            Muscles smaller.
+<br>
+               II. _The Integuments, etc_.
+  10. More hair on body, that    Less hair on body, that of head
+      of head shorter; beard.    longer; no beard.
+  12. Skin rougher (generally).  Skin smoother.
+<br>
+               III. _The Head and Face_.
+  16. Superciliary ridges more   Superciliary ridges low.
+      prominent.
+  22. Eyes often smaller.        Eyes often larger.
+</pre>
+
+<p class="ctr"><a href="images/13c.png"><img src=
+"images/13c_th.jpg" alt=""></a></p>
+
+<p class="ctr">The Wrestler; original in the Vatican. This figure
+displays<br>
+the characters of the male Indo-European, except the<br>
+beard.</p>
+
+<p>The characters in which the male is the most like the infant are
+two, viz., the narrow hips and short hair. Those in which the
+female is most embryonic are five, viz., the shorter legs, smaller
+muscles, absence of beard, low superciliary ridges, and frequently
+larger eyes. To these may be added two others not mentioned in the
+above lists; these are 1, the high pitched voice, which never falls
+an octave, as does that of the male; and 2, the structure of the
+generative organs, which in all mammalia more nearly resemble the
+embryo and the lower vertebrata in the female than in the male.
+Nevertheless, as Bischoff has pointed out, one of the most
+important distinctions between man and the apes is to be found in
+the external reproductive organs of the female.</p>
+
+<p>From the preceding rapid sketch the reader will be able to
+explain the meaning of most of the peculiarities of face and form
+which he will meet with. Many persons possess at least one
+quadrumanous or embryonic character. The strongly convex upper lip
+frequently seen among the lower classes of the Irish is a modified
+quadrumanous character. Many people, especially those of the
+Sclavic races, have more or less embryonic noses. A retreating chin
+is a marked monkey character. Shortness of stature is mostly due to
+shortness of the femur, or thigh; the inequalities of people
+sitting are much less than those of people standing. A short femur
+is embryonic; so is a very large head. The faces of some people are
+always partially embryonic, in having a short face and light lower
+jaw. Such faces are still more embryonic when the forehead and eyes
+are protuberant. Retardation of this kind is frequently seen in
+children, and less frequently in women. The length of the arms
+would appear to have grown less in comparatively recent times. Thus
+the humerus in most of the Greek statues, including the Apollo
+Belvidere, is longer than those of modern Europeans, according to a
+writer in the Bulletin de la Soci&eacute;t&eacute; d'Anthropologie
+of Paris, and resembles more nearly that of the modern Nubians than
+any other people. This is a quadrumanous approximation. The
+miserably developed calves of many of the savages of Australia,
+Africa, and America are well known. The fine, swelling
+gastroenemius and soleus muscles characterize the highest races,
+and are most remote from the slender shanks of the monkeys. The
+gluteus muscles developed in the lower races as well as in the
+higher distinguish them well from the monkeys with their flat
+posterior outline.</p>
+
+<p>It must be borne in mind that the quadrumanous indications are
+found in the lower classes of the most developed races. The status
+of a race or family is determined by the percentage of its
+individuals who do and do not present the features in question.
+Some embryonic characters may also appear in individuals of any
+race, as a consequence of special circumstances. Such are, however,
+as important to the physiognomist as the more normal
+variations.</p>
+
+<p>Some of these features have a purely physical significance, but
+the majority of them are, as already remarked, intimately connected
+with the development of the mind, either as a cause or as a
+necessary coincidence. I will examine these relations in a future
+article.</p>
+
+<hr>
+<a name="31"></a>
+
+<h2>THE PRODUCTION OF FIRE.</h2>
+
+<p>In 1867 the Abb&eacute; Bourgeois found at Thenay, near
+Pont-levoy (Loir-et-Cher), in a marly bank belonging to the most
+ancient part of the middle Tertiary formation, fragments of silex
+which bore traces of the action of fire. This fire had not been
+lighted by accidental causes, for, says Mr. DeMortillet (<i>Le
+Prehistorique</i>, p. 90), the causes of instantaneous
+conflagrations can be only volcanic fires, fermentations, and
+lightning. "Now, in the entire region there is no trace of volcanic
+action, and neither are there any traces of turfy or vegetable
+deposits capable of giving rise to spontaneous
+inflammations--phenomena that are always very rare and very
+exceptional, as are also conflagrations started by lightning. Well,
+in the Thenay marls, the pieces of silex that had undergone the
+action of fire were found disseminated at different levels, and
+this could not have been a simple accident, but was evidently
+something that had been done intentionally. There existed, then,
+during the Aquitanian epoch, a being who was acquainted with fire
+and knew how to produce it."</p>
+
+<p>Mr. De Mortillet supposes that this being was an animal
+intermediate between man and the monkey, which he calls the
+<i>anthropopithecus</i>.</p>
+
+<p>This precursor of man made use of fire for splitting silex and
+manufacturing from it instruments whose cutting edge he perfected
+by means of a series of retouchings produced by slight percussions
+upon one of the surfaces only.</p>
+
+<p>I shall not enter in this place upon a discussion as to the
+existence of an anthropopithecus or Tertiary man, whom every one
+does not as yet accept, but will confine myself to giving the facts
+as to the use of fire in the remotest epochs, incontestable proofs
+of which exist from the time at which Quaternary man made his
+appearance. How this was discovered is indicated, according to
+Aryan tradition, by the Vedic hymns. The ancestors of the Aryans,
+these tell us, had seen the lighting dart forth from the shock of
+black clouds. They had seen the spark that fired the forests issue
+from the friction of dry branches agitated by the storm. They took
+a branch of soft wood, <i>arani</i>, and passing a thong around a
+branch of hard wood, <i>pramontha</i>, they caused it to revolve
+rapidly in a cavity in the <i>arani</i>, and thus evoked the god
+<i>Agni</i>, whom they nourished with libations of clarified
+butter, <i>soma</i>.</p>
+
+<p>The <i>Pramontha</i>, became the <i>Prometheus</i> of the
+Greeks, the Titan who stole the fire, and it is from the Sanscrit
+<i>Agni</i> that is derived the Latin <i>Ignis</i>, "fire," and the
+Greek &Alpha;&gamma;&nu;&omicron;&sigmaf;, "pure," and the <i>Agnus
+Dei</i> of the Christians, who purifies all.</p>
+
+<p>Orientalists generally agree that the sign which is seen under
+the forms <img src="images/i1.png" alt="">, <img src=
+"images/i2.png" alt="">, or <img src=
+"images/i3.png" alt="">, on a large number of objects of
+Aryan origin is a sort of sacred hieroglyphic, representing the
+<i>arani</i> or <i>svastika</i>, formed of two pieces of soft wood
+fixed by four pins in such a way as not to revolve under the
+pressure of the Pramontha.</p>
+
+<p>This process of producing fire is also found among a host of
+more or less savage peoples, and especially in India, where, during
+the last month of the great feast of sacrifices, the sacred fire
+must always be kindled three hundred and sixty times a day with
+nine different kinds of wood that are prescribed by the rite.</p>
+
+<p>Fig. 1 shows the arrangement in use among the Eskimos, and Fig.
+2 that employed by the Indians of North America.</p>
+
+<p>In 1828 there still existed at Essen, in Hanover, an analogous
+apparatus designed to produce an alarm fire. This was a large,
+horizontal, round wooden bar whose extremities pivoted in two
+apertures formed in vertical posts, and which was provided with a
+cord that was wound around it several times. Several persons, by
+pulling on the ends of this cord, caused the bar to revolve
+alternately in one direction and the other, and the heat developed
+by the friction lighted some tow that had previously been inserted
+in one of the apertures in the post.</p>
+
+<p class="ctr"><img src="images/14a.png" alt=
+"FIG. 1.--ESKIMO PRODUCING FIRE BY FRICTION."></p>
+
+<p class="ctr">FIG. 1.--ESKIMO PRODUCING FIRE BY FRICTION.</p>
+
+<p>It is certain that the alternate motion must have been produced
+directly by hand before being effected by cords. This simpler
+process is still in use in Tasmania, Australia, Polynesia,
+Kamtschatka, Thibet, Mexico, and among the Guanches of the Canary
+Isles, who are supposed to be the last representatives of the
+inhabitants of Atlantis, which sank under the waters at the close
+of the Quaternary epoch.</p>
+
+<p>Chamisso, who accompanied Kotzebue in his voyage, describes it
+as follows: "In the Caroline Islands, they rest a vertical piece of
+roundish wood, terminating in a point, and about a foot and a half
+in length and one inch in diameter, upon a second one fixed in the
+ground, and then give it a rotary motion by acting with the palms
+of the hands. This motion, which is at first slow and measured, is
+at length accelerated, while at the same time the pressure becomes
+stronger, whereupon the dust from the wood which has formed by
+friction and accumulated around the point of the movable piece
+begins to carbonize. This dust, which, after a fashion, constitutes
+a match, soon bursts into flame. The women of Eap are wonderfully
+dexterous in their use of this process."</p>
+
+<p class="ctr"><img src="images/14b.png" alt=""></p>
+
+<p class="ctr">FIG. 2.--PROCESS EMPLOYED IN NORTH AMERICA<br>
+FOR PRODUCING FIRE.</p>
+
+<p>Fig. 3 shows another manner of obtaining fire by rotation which
+is employed by the Guachos, a half savage, pastoral people who
+inhabit the pampas of South America. Longitudinal friction must
+have preceded that obtained by rotation. It is still in use in most
+of the islands of Oceanica (Fig. 4), and especially in Tahiti and
+in the Sandwich Islands.</p>
+
+<p>In these latter, says again Chamisso, upon the fixed piece of
+wood they place another piece of the same kind, about the length of
+the palm, and press it obliquely at an angle of about 30 degrees.
+The extremity that touches the fixed piece is blunt, and the other
+extremity is held with the two hands, the two thumbs downward, in
+order to allow of a surer pressure. The piece is given an
+alternating motion, and in such a way that it shall always remain
+in the same plane inclined at an angle of 30 degrees, and form,
+through friction, a small groove from six to eight centimeters in
+length. When the dust thus produced begins to carbonize, the
+pressure and velocity are increased. Wood of a homogeneous texture,
+neither too hard nor too soft, is the best for the purpose.</p>
+
+<p>The Malays operate as follows: A dry bamboo rod, about a foot in
+length, is split longitudinally, and the pith which lines the
+inside is scraped off, pressed, and made into a small ball which is
+afterward placed in the center of the cavity of one of the halves
+of the tube. This latter half is then fixed to the ground in such a
+way that the cavity and ball face downward. The operator next
+fashions the other half of the tube into a straight cutting
+instrument like a knife-blade, which he applies transversely to the
+fixed half and gives an alternating motion so as to produce a sort
+of sawing. After a certain length of time, a groove, and finally a
+hole, is produced. The cutting edge of the instrument is then so
+hot that it sets on fire the ball with which it has come in
+contact.</p>
+
+<p class="ctr"><img src="images/14c.png" alt=
+"FIG. 3.--GAUCHO OBTAINING FIRE."></p>
+
+<p class="ctr">FIG. 3.--GAUCHO OBTAINING FIRE.</p>
+
+<p>Some peoples, the Fuegians especially, procure fire by striking
+together two flints. In the Aleutian Islands these latter, having
+been previously covered with sulphur, are struck against each other
+over a small saucer of dry moss dusted with sulphur. The Eskimos
+employ for this purpose pieces of quartz and iron pyrites.</p>
+
+<p>In the Sandwich Islands recourse is had to a process that
+necessitates much skill. There is arranged in a large dry leaf,
+rolled into the shape of a funnel, a certain number of flints along
+with some easily combustible twigs. On attaching the leaf to the
+end of a rod, and revolving the latter rapidly, it is said that
+fire is produced.</p>
+
+<p>Processes that are based upon the clashing of two flint stones
+must be much more inconvenient of application than we would be led
+to suppose. We are, in fact, accustomed to see the flint and steel
+used, but here the spark is a bit of iron raised to red heat
+through a mechanical action that has violently detached it from the
+mass under the form of a small sliver. In the case of two flint
+stones, the light that is perceived is of an entirely different
+nature, for it is a phosphorescence which is produced, even by a
+very slight friction, not only between two pieces of silex, but
+also between two pieces of quartz, porcelain, or sugar; and that
+the heat developed is but slight is proved by the fact that the
+phenomenon may occur under water. Of course, fragments of stones
+may be raised to a red heat through percussion; but this does not
+often occur, so for this reason the Fuegians keep up with the
+greatest care the fires that they have lighted, and it is this very
+peculiarity that has given their country a characteristic aspect
+and caused it to be named Terra del Fuego (land of fire). When they
+change their residence they always carry with them a few lighted
+embers which rest in their canoes upon a bed of pebbles or
+ashes.</p>
+
+<p>The same thing occurs, moreover, among the Australians and
+Tasmanians, who employ, as we have just seen, the rotary process.
+There are women among these peoples whose special mission it is to
+carry day and night lighted torches or cones made of a substance
+that burns slowly like punk. When, through accident, the fire
+happens to get extinguished in a tribe, these people often prefer
+to undertake a long voyage in order to obtain another light from a
+neighboring tribe rather than have recourse to a direct production
+of it.</p>
+
+<p>We can understand from what is still taking place in these
+distant countries why the worship of fire should have existed among
+our ancestors, and why sacerdotal associations, such as the
+Brahmins of India, the Guebers of Persia, the Vestals of Rome, the
+priests of Baal in Chaldea and Phenicia should have been specially
+instituted for producing and preserving it.</p>
+
+<p>Plutarch narrates (Numa, chap. ii.) that when the sacred fire
+happened to go out, there was employed for relighting it a brass
+mirror that had the form of a cone generated by the hypothenuse of
+an isosceles rectangular triangle revolving around one of the sides
+of the right angle.</p>
+
+<p class="ctr"><img src="images/14d.png" alt=""></p>
+
+<p class="ctr">FIG. 4.--NATIVE OF OCEANICA OBTAINING FIRE<br>
+BY FRICTION.</p>
+
+<p>In a poem upon stones attributed to Orpheus, it is said that the
+sacred fire was also lighted by a bit of crystal which concentrated
+the rays of the sun upon the material to be inflamed. This process
+must have been the one that was most usually employed before fire
+became common. In fact, a plano-convex crystal lens has been found
+among the ruins of Nineveh. Aristophanes, in the <i>Clouds</i>,
+puts on the stage a coarse personage named Strepsiades, who points
+out to Socrates how he must manage so as not to pay his debts:</p>
+
+<p>"Streps.--Hast thou seen among druggists that beautiful
+transparent stone that they employ for lighting a fire?</p>
+
+<p>"Socr.--Thou meanest glass.</p>
+
+<p>"Streps.--Yes.</p>
+
+<p>"Socr.--Well! what wouldst thou do with it?</p>
+
+<p>"Streps.--When the registrar shall have made out his summons
+against me, I will take the glass, and, placing myself thus in the
+sun, will cause his writing to melt."</p>
+
+<p>As well known, writing was then traced on waxen tablets. Servius
+(in <i>&AElig;n</i>., xii., 200) affirms that men of ancient times,
+instead of lighting fire upon the altar themselves, in their
+sacrifices, caused it to descend from heaven. He adds, according to
+Pliny, Titus Livius, and several old Latin historians, that Numa,
+who was initiated into all the wisdom of Etruria, practiced this
+art with success, but that Tullius Hostilius, having desired to
+repeat the evocation, guided only by the books of Numa, did not
+accomplish all the formalities prescribed by the rite and was
+struck dead by lightning.</p>
+
+<p>Is it not curious that twenty-four centuries afterward, in 1753,
+the physicist Reichman was killed by lightning in trying to repeat
+Franklin's experiment? This coincidence, however, is not the only
+one. Pliny (ii., 53) recounts that lightning was evoked by King
+Porsenna at the time when a monster named <i>Volta</i>, who was
+ravaging the country, was directing himself toward the capital,
+Volsinies.</p>
+
+<p>If we return to the Vedas, who had the habit of personifying all
+phenomena, we shall find that the fire Agni was the son of the
+carpenter who had manufactured the instrument by which it was
+produced, and of <i>Maya</i> (magic). He took the name of Akta
+(anointed, [Greek: christos]) when, nourished by libations of
+butter, he had acquired his full development. The Persians
+attributed likewise to Zoroaster the power of causing fire to
+descend from heaven through magic. Saint Clement of Alexandria
+(<i>Recog</i>., lib. iv.) and Gregory of Tours (<i>Hist. de
+Fr.</i>, i., 5) speak of this. However this may be, the marvelous
+art was lost at an early date, for it was at such a date that
+priests began to have recourse to tricks that were more or less
+ingenious for lighting their sacred fireplaces in an apparently
+supernatural manner.--<i>A. De Rochas, in La Nature</i>.</p>
+
+<hr>
+<a name="32"></a>
+
+<h2>ST. BLAISE, THE WINNER OF THE DERBY.</h2>
+
+<p>St. Blaise, the property of Sir Frederick Johnstone, was bred by
+Lord Alington, and is by Hermit from Fusee. This is an
+unexceptionable pedigree, for Hermit is now as successful and
+fashionable a sire as was even Stockwell in his palmiest days,
+while Fusee was far more than an average performer on the turf, and
+won several Queen's Plates and other races over a distance of
+ground. St. Blaise is by no means a big colt, standing considerably
+under sixteen hands. His color is about his worst point, as he is a
+light, washy chestnut, with a bald face and three white heels. He
+has a good head and neck, and very powerful back and muscular
+quarters, added to which his legs and feet are well shaped and
+thoroughly sound. His first appearance was made in the
+Twenty-fourth Stockbridge Biennial at the Bibury Club Meeting, when
+he won easily enough; but there were only four moderate animals
+behind him. A walk-over for the Troy Stakes followed, and then
+Macheath beat him easily enough for the Hurstbourne Stakes, though
+he finished in front of Adriana and Tyndrum. For the Molecomb
+Stakes at Goodwood, he ran a dead-heat with Elzevir, to whom he was
+giving 7 lb.; and Bonny Jean, in receipt of 10 lb., was unplaced. A
+7 lb. penalty seemed to put him completely out of the Dewhurst
+Plate; but he must then have been out of form, as, on the following
+day, it took him all his time to defeat Pebble by a neck in the
+Troy Stakes. This season he has only run twice. His fourth in the
+Two Thousand was by no means a bad performance, considering that he
+was palpably backward; and his victory of last week is too recent
+to need further allusion. Porter, his trainer, can boast of several
+other successes in the great race at Epsom; but Charles Wood had
+never previously ridden a Derby winner. St. Blaise was
+unfortunately omitted from the entries for the St. Leger, but has
+several valuable engagements at Ascot next week, and appears to
+have the Grand Prize of Paris, on Sunday, at his
+mercy.--<i>Illustrated London News</i>.</p>
+
+<p class="ctr"><a href="images/15a.png"><img src=
+"images/15a_th.jpg" alt=
+"ST. BLAISE, THE WINNER OF THE DERBY."></a></p>
+
+<p class="ctr">ST. BLAISE, THE WINNER OF THE DERBY.</p>
+
+<hr>
+[NATURE.]
+
+<h2>SCIENTIFIC PROGRESS IN CHINA AND JAPAN.</h2>
+
+<p>Various steps in the progress of China, and Japan in the
+adoption of Western science and educational methods have from time
+to time been noticed in these columns. To the popular mind the
+names of the two countries are synonymous with rigid, unreasoning
+conservatism and with rapid change, respectively. The grave,
+dignified Chinese, who maintains his own dress and habits even when
+isolated among strangers, and whose motto appears to be, <i>Stare
+super mas antiquas</i>, is popularly believed to be animated by a
+sullen, obstinate hostility toward any introduction from the West,
+however plain its value may be; while his gayer and more mercurial
+neighbor, the Japanese, is regarded as the true child of the old
+age of the West, following assiduously in its parent's footsteps,
+and pursuing obediently the path marked out by European experience.
+There is considerable misconception in this, as indeed there is at
+all times in the English popular mind with regard to strange
+peoples. Broadly speaking, it is no doubt correct to say that,
+Japan has adopted Western inventions and scientific appliances with
+avidity; that she has shown a desire for change which is abnormal,
+and a disposition to destroy her charts and sail away into
+unsurveyed seas, while China remains pretty much where she always
+was. She is now, with some exceptions, what she was twenty, two
+hundred, perhaps two thousand years ago, while a new Japan has been
+created in fifteen years. All this, we say, is true, but it is not
+the whole truth. China also has had her changes; not indeed so
+marked or rapid, not so much in the nature of a <i>volte-face</i>
+on all her past as those of her neighbor.</p>
+
+<p>The radical difference between the two countries in this respect
+we take to be this: that while Japan loves change for the sake of
+change, China dislikes it, and will only adopt it when it is
+clearly demonstrated to her that change is absolutely necessary. To
+the Japanese change appears to be a delightful excitement, to the
+Chinese a distasteful necessity; to the former whatever is must be
+wrong, to the latter whatever is is right. As a consequence of this
+difference between the two peoples, when China once makes a step
+forward it is generally after much deliberation, and is never
+retraced. Japan is constantly undertaking new schemes with little
+care or thought for the morrow, but with the applause of
+injudicious foreign friends. In a short time she discovers that she
+has underrated the expense or exaggerated the results, and her
+projects are straightway abandoned as rapidly and thoughtlessly as
+they were commenced. Swift suggested as a suitable subject for a
+philosophical writer a history of human projects which were never
+carried out; the historian of modern Japan finds these at every
+turn. Where, for example, are the results of the great surveys,
+trigonometrical and others, which were commenced in Yezo and the
+main island about ten years ago? A large, expensive, but highly
+competent foreign staff was engaged, and worked for a few years;
+but suddenly the whole survey department was swept away, and the
+valuable instruments are, or were recently, lying rusting in a
+warehouse in Tokio. The same story may be told of scores of other
+scientific or educational undertakings in Japan. An able and
+careful writer, Col. H.S. Palmer, R.E., who has recently, with a
+friendly and sympathetic eye, examined the whole field of recent
+Japanese progress, in the <i>British</i> <i>Quarterly Review</i> is
+forced to acknowledge this. "Once having recognized," says this
+officer, "that progress is essential to welfare, and having
+resolved, first among the nations of the East, to throw off past
+traditions and mould their civilization after that of Western
+countries, it was not in the nature of the lively and impulsive
+Japanese to advance along the path of reform with the calmness and
+circumspection that might have been possible to a people of less
+active temperament. Without doubt many foreign institutions were at
+first adopted rather too hastily, and the passing difficulties
+which now beset Japan are to some extent the inevitable result." It
+would be blindness to deny that the net result of the Japanese
+efforts is progress of a very remarkable kind, but it is a progress
+which in many respects lacks the firm and abiding characteristics
+of Chinese movements.</p>
+
+<p>The proverb, <i>Chi va piano va sano</i>, which was recommended
+ten years ago to Japanese attention by an eminent English official,
+and apparently disregarded by them, has been adopted by their
+continental neighbors. To the blandishments of pushing diplomatists
+or acute promoters, the Chinese are deaf. However we may felicitate
+ourselves on our inventions, scientific appliances, "the railway
+and the steamship and the thoughts that shake mankind," our
+progress, the newspapers, the penny post, and what not, China will
+not adopt them simply because <i>we</i> have found their value and
+are proud of them. But if, within the range of her own experience,
+she finds the advantage of these things, she will employ them with
+a rapidity and decision surpassing those of the Japanese. A
+conspicuous instance of this will be found in her recent action
+with respect to telegraphs. For years the Chinese steadily refused
+to have anything to do with them; the small land line which
+connected the foreign community of Shanghai with the outer world,
+was maintained against the violent protests of the local
+authorities, and the cable companies experienced some difficulty in
+getting permission to land their cables. But during the winter of
+1870-80, when war with Russia was threatened, the value of
+telegraphs was demonstrated to the Peking government. The Peiho at
+Tientsin was closed by ice against steamers, and news could only be
+carried to the capital by overland couriers from Shanghai. Before a
+year elapsed a land line of telegraph was being constructed between
+this port and Tientsin; in a few months the line was in working
+order, and the Chinese metropolis is now in telegraphic
+communication with every capital in Europe.</p>
+
+<p>This conservatism, respect for antiquity, conceit, prejudice,
+call it what we will, has something in it that extorts our respect.
+Let us imagine a dignified and cultivated Chinese official
+conversing with a pushing Manchester or Birmingham manufacturer,
+who descants on the benefits of our modern inventions. He would
+probably commune with himself in this wise, whatever reply Oriental
+politeness would dictate to his interviewer: "China has got on very
+well for some tens of centuries without the curious things of which
+this foreigner speaks; she has produced in this time statesmen,
+poets, philosophers, soldiers; her people appear to have had their
+share of affliction, but not more than those of Europe; why should
+we now turn round at the bidding of a handful of strangers who know
+little of us or our country, and make violent changes in our life
+and habits? A railway in a province will throw thousands of coolies
+and boatmen out of employment and bring on them misery and
+starvation. This foreigner says that railways and telegraphs have
+been found beneficial in his country; good, let his countrymen have
+them if they please, but let us rest as we are for the present.
+Moreover, past events have not given us such faith in Europeans
+that we should take all they say for wisdom and justice." A day
+will undoubtedly come when China also will have her great
+mechanical and scientific enterprises; but what we contend for here
+is that nothing we can say or do will bring that time an hour
+nearer. European public opinion is to China a dead letter; she
+refuses to plead before that tribunal. Each step of her advance
+along our path must be the result of her own reflection and
+experience; and our wisest policy would be to leave her to herself
+to advance on it as she deems best. SINENSIS.</p>
+
+<hr>
+<a name="28"></a>
+
+<h2>THE DIAMOND FIELDS OF SOUTH AFRICA.</h2>
+
+<p>At a recent meeting of the Institution of Civil Engineers, the
+paper read was "On the Diamond Fields and Mines of South Africa,"
+by Mr. James N. Paxman, Asoc. M. Inst. C.E.</p>
+
+<p>The author commenced by stating that Kimberley was situated in
+Griqualand West, above 700 miles northeast from Table Bay, and 450
+miles inland from Port Elizabeth and Natal on the east coast. Lines
+of railway were in course of construction from Table Bay and Port
+Elizabeth to Kimberley, and were about half completed. In
+Griqualand there were several diamond mines, the principal of which
+were Kimberley, De Beer's, Du Toit's Pan, and Bultfontein.</p>
+
+<p>In the Orange Free States there were also two mines, viz.,
+Jagersfontein and Koffeyfontein, the first of which produced fine
+white stones. The mines were all divided into claims, the greatest
+number of which were to be found in the Du Toit's Pan mine.
+Bultfontein came next.</p>
+
+<p>The deepest and most regularly worked was the Kimberley mine.
+The next deepest was De Beer's, which, however, was very unevenly
+worked. Then followed Du Toit's Pan and Bultfontein. The Du Toit's
+Pan mine ranked next in importance to Kimberley mine. Diamonds were
+first discovered in 1867 by Mr. O'Reilley, a trader and hunter, who
+visited a colonist named van Niekirk, residing in Griqua. The first
+diamond, on being sent to the authorities, was valued at
+500<i>l</i>. Considerable excitement was caused throughout the
+colony, and the natives commenced to look for diamonds, and many
+were found, among which was one of eighty-three and a half carats,
+valued at 15,000<i>l</i>. In 1868 many enterprising colonists made
+their way up the Vaal River, and were successful in finding a good
+number of diamonds. The center of the river diggings on the
+Transvaal side was Klipdrift, and on the opposite side Pniel. In
+all there were fourteen river diggings. Du Toit's Pan and
+Bultfontein mines were discovered in 1870 at a distance of
+twenty-four miles from the river diggings. The diggers took
+possession of these places. Licenses were granted giving the first
+diggers a right to work. In 1871 De Beer's and Kimberley mines were
+discovered, and in 1872, Mr. Spalding's great diamond of
+282&frac12; carats was found at the river diggings.</p>
+
+<p>The mines were of irregular shape, and were surrounded by reef.
+The top reef was a loose shale, and had given great trouble from
+the frequent slips. Below this were strata of trachitic breccia and
+augite; the formation was then seamy to an unknown depth.</p>
+
+<p>Within the reef, the surface soil was red, and of a sandy
+nature. The next stratum was of a loose, yellow, gravelly lime, and
+the third blue, of a hard, slaty nature. This last was the real
+diamantiferous soil. Large stones had been found in the "yellow,"
+but the working of this generally did not pay. Kimberley mine,
+however, had paid very well all through. The method of working in
+deep ground was determined by roadways running north and south. The
+soil was hauled up to these roadways, and taken to the sorting
+tables. The roadways decaying shortly after exposure to the
+atmosphere, a system of hand windlass was adopted, which worked
+very well for a time until horsewhims were adopted in 1873. The
+depths of the mines increasing, horsewhims had to give way to
+steam-engines in 1876.</p>
+
+<p>The first diggers treated on an average ten loads per day each
+party. At the present time the least taken out by any engine, when
+fully employed, was 250 loads per day. The cost of working, with
+present appliances, the first one hundred feet in depth, was 3s.
+6d. per load; the second one hundred feet (mostly blue) 5s.; the
+third one hundred feet 8s.; and the fourth one hundred feet 11s.
+Through scarcity of water a system of dry-sorting had to be
+resorted to for several years; but it was superseded by the
+introduction of washing machinery, which was now generally
+employed.</p>
+
+<p>At the commencement, through inexperience, many serious mistakes
+were made. When the first diggers reached the bottom of the red
+sand, they thought no diamonds would be found in the next stratum.
+When, however, diamonds were found in the second stratum, the
+diggers had again to remove the debris, and so also when the "blue"
+was reached. Some of the claims in the Du Toit's Pan and
+Bultfontein mines were irregular in shape. The other mines,
+however, had been properly and regularly laid out. One or two
+shafts had been connected with the mines by underground galleries.
+These galleries were convenient in the case of falls of reef.
+Labor, at first, was cheap; but from 20s. per month, wages rose to
+30s. per week, and food. The yellow soil offered no difficulty in
+working, being loose and broken, but the blue soil required
+blasting.</p>
+
+<p>Several methods were adopted for extracting the soil and
+carrying it from the mine before steam was introduced. The cost of
+wood for heating purposes was a serious item, but good coal had now
+been found at 160 miles from Kimberley, costing 13l. per ton;
+another serious item of expense was the transport over natural
+roads only, costing from 18<i>l</i>. to 30<i>l</i>. per ton.</p>
+
+<p>The machinery designed by the author for this industry was
+described. A sixteen horse-power direct-acting winding engine was
+introduced for hauling up loads at the rate of about one thousand
+feet per minute, and a twenty-five horse-power geared engine, for
+hauling up heavier loads at the rate of from six hundred feet to
+seven hundred feet per minute.</p>
+
+<p>Water was dear, and water-heaters were fitted to each engine, by
+which thirty-three per cent. of the water was again used, thus
+saving one third. The boilers were of the locomotive type, mostly
+of steel, to save weight, and thus reduce the cost of transit. The
+fire-boxes were also made of steel of very soft and ductile
+quality. A semi-portable engine was made for driving the wash mill.
+The engine was so arranged that it might be removed from the boiler
+and placed separately. The boiler was made to work at a pressure of
+140 pounds per square inch. Automatic cut off gear was fixed to
+each engine, and the governors were provided with a spiral spring
+for adjusting the speed. A screen, or cylinder wash mill and
+elevator, were used for dealing with the diamantiferous soil, and
+were described. Standing wires were fixed at the back of the
+machinery, and passed over a frame fixed at the top of the mine,
+the end of the mine being secured to strong wooden posts. After the
+blue soil had been blasted and collected into trucks, it was placed
+in tubs, which ascended the standing wires. It was then emptied
+into the depositing box. The yellow soil might be put into the wash
+mill direct, also that portion of the blue which had passed through
+the screen fixed over the depositing box. The remainder of the
+blue, which was spread out to a thickness of four inches or six
+inches on the depositing ground, some distance from the mine to
+dry, was delivered into the upper part of the screen. The return
+water from the elevator, with a portion of fresh water, was also
+discharged at this point, and operations were thus greatly
+facilitated, the soil becoming thoroughly saturated, and passing
+more easily down the shoots. The large pieces which would not drop
+through the meshes of the screen were discharged into trucks at the
+lower end and carried away. The smaller pieces with water, in the
+form of sludge, fell through into a shoot, and thus were conveyed
+into the wash mill pan, and there kept in constant rotating motion
+by agitators. The diamonds and other pieces of high specific
+gravity sank to the deepest part of the pan, and the remainder of
+the sludge was forced over the inner ledge to the elevator. The
+sludge was then lifted and thrown upon an inclined screen and down
+the shoot over the side of the bank. The residue left in the pan at
+the end of the day's work was passed through a pulsator, in which,
+by the force of water, the mud and lighter particles were carried
+away, leaving behind the diamonds, agates, garnets, and other heavy
+stones. It was the practice occasionally to put a few inferior
+stones in the soil, to test the efficiency of the machinery.</p>
+
+<p>In 1881 the author paid a visit to Kimberley, and found the
+industry a large one. The Post Office return showed the value of
+diamonds passed through the office in one year to be
+3,685,000<i>l</i>. Illicit diamond traffic had hitherto been a
+source of great trouble at the fields. It was a question whether
+this industry would ever cease; in any case there was no doubt but
+that it would last for over a century. It was believed that the
+main bed of diamonds had not yet been reached, and that the mines
+in operation were merely shafts leading to it. Now that the water
+works were finished, with a bountiful supply of water, coupled with
+the great boon of railways to the Fields, and the advantage of a
+law recently passed for the prevention of illicit buying, a great
+and prosperous future was in store for the Diamond Fields.</p>
+
+<hr>
+<a name="29"></a>
+
+<h2>SPONGES AT THE BAHAMAS.</h2>
+
+<p>Within the last few decades the sponge industry of the Bahama
+Islands has increased at such a rate that to-day it is the second
+in importance on the island. Although the product is not of such
+excellent quality as that from the Mediterranean, it sells well and
+is in demand both in England and in America.</p>
+
+<p>For sponge fishing little boats of ten tons burden are employed
+and manned by from six to twelve men. The sponges that are washed
+upon the rocks and reefs are taken with iron rakes fastened to long
+poles, or are brought to the surface by divers and spread out on
+the deck of the vessel. This kills their soft, slimy organisms,
+which are black as tar. The sponges are then repeatedly beaten with
+sticks to remove this black slime, and afterward well washed.</p>
+
+<p>The sponges are then sorted and softened for several hours in
+lime water, dried in the sun, and bleached. They are finally
+pressed by machinery into 100 lb. balls and then packed for
+shipping.</p>
+
+<p>A rich and very extensive "sponge field" was recently discovered
+near Eleuthera, but as the water there has a considerable depth,
+five or six fathoms, fishing is attended with difficulty. In fact,
+it is rendered impossible wherever the "segler" or sailor fish are
+found, for the mud which these tiny creatures stir up completely
+veils the sponges from the eye of the fisherman.</p>
+
+<p>In 1881 the export amounted to $150,000, of which three-fourths
+came to America.--<i>Chem. Zeit</i>.</p>
+
+<hr>
+<a name="30"></a>
+
+<h2>TESTING FISH OVA FOR IMPREGNATION.</h2>
+
+<p>The development of the eyes of game fishes (salmonoids), as is
+well known, is relatively far advanced before the fish culturist is
+positively assured that embryos are developing normally in the egg.
+A method, therefore, which would enable us to shorten this period
+of probation would not only be desirable, but be also of value
+under certain circumstances, since it is certainly annoying after
+having had them in water for four or five weeks, spending time and
+care over them, to eventually find, when the "eye spots" do not
+develop, that all our trouble was wasted and that no development at
+all took place.</p>
+
+<p>It is true one may, with proper preparations and with the help
+of the pocket lens or microscope, follow the development while
+there may be no external signs of the process evident. This method
+of making the test is, however, not adapted to the purposes of the
+practical fish culturist, who will have better success by the
+following method:</p>
+
+<p>If fertilized fish ova are placed in a 50 per cent. solution of
+wine vinegar [any ordinary vinegar will probably be found to answer
+just as well--<i>Tr</i>.] the embryo, even during the very first
+stages of development, will become apparent to the eye lying on the
+transparent yelk. The acetic acid contained in the mixture, one
+part water to one part wine vinegar, causes the material of the
+embryo proper to coagulate, while the yelk remains clear.</p>
+
+<p>A short time after the ova are laid in this mixture, and during
+the first week after impregnation, a white circle at one pole of
+the egg should become apparent, and in the course of the second
+week a cylindrical white streak running from the edge of the circle
+toward its center should be evident. If these features are not
+developed by the test, the eggs have not been fertilized, and are,
+therefore, worthless.</p>
+
+<p>We will not complicate the application of the method by
+describing other details of the development, but would merely
+suggest that when a lot of ova are fertilized a small portion
+should be left unimpregnated. These could then be tested in
+comparison with the fertilized ova from day to day, using say three
+eggs at a time of each lot. The observant culturist could by this
+means construct for himself a scale of development covering the
+period embraced by his experiments. At a lower temperature the
+development is slower than at a higher one. The difference of
+appearance between fertilized and unfertilized ova treated by the
+method will demonstrate its utility. Whoever does not trust to the
+method for the evidence of death of the eggs until after five weeks
+subsequent to impregnation, must of course wait.</p>
+
+<p>Director Tiefenthaler, of K&ouml;lzen, has had the kindness to
+test the method practically, and finds it useful to fish
+culturists.--<i>Prof. Nussbaum</i>.</p>
+
+<p>[A very little practice, it seems to the translator, would serve
+to enable any person of ordinary intelligence to apply this method,
+or several others which might be suggested. Other substances which
+would answer the same purpose would be dilute solutions of picric
+or chromic acid, of not more than one to one-half per cent., or one
+part to two hundred of water. Vinegar or acetic acid of the shops
+may also be used; the last to be diluted in the proportions of
+about one part in ten of water. The acids cited will coagulate and
+cause the germ disk to turn white or yellow in a few hours. Chromic
+is better than picric acid, as it coagulates the yelk also, but
+turns the latter much darker than the embryo or embryonic
+disk.--<i>Tr</i>.]</p>
+
+<hr>
+<p>A catalogue, containing brief notices of many important
+scientific papers heretofore published in the SUPPLEMENT, may be
+had gratis at this office.</p>
+
+<hr>
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+January 1, 1876, can be had. Price, 10 cents each.</p>
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+<hr>
+<h2><b>PATENTS.</b></h2>
+
+<p>In connection with the <b>Scientific American</b>, Messrs. MUNN
+&amp; Co. are Solicitors of American and Foreign Patents, have had
+38 years' experience, and now have the largest establishment in the
+world. Patents are obtained on the best terms.</p>
+
+<p>A special notice is made in the <b>Scientific American</b> of
+all Inventions patented through this Agency, with the name and
+residence of the Patentee. By the immense circulation thus given,
+public attention is directed to the merits of the new patent, and
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+
+<p>Any person who has made a new discovery or invention can
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+
+<p>We also send free our Hand Book about the Patent Laws, Patents,
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+
+<p><b>MUNN &amp; CO., 261 Broadway, New York.</b></p>
+
+<p>Branch Office, cor. F and 7th Sts., Washington, D. C.</p>
+
+
+
+
+
+
+
+
+<pre>
+
+
+
+
+
+End of the Project Gutenberg EBook of Scientific American Supplement, No.
+392, July 7, 1883, by Various
+
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+</body>
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@@ -0,0 +1,4813 @@
+The Project Gutenberg EBook of Scientific American Supplement, No. 392,
+July 7, 1883, by Various
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+
+Title: Scientific American Supplement, No. 392, July 7, 1883
+
+Author: Various
+
+Posting Date: October 10, 2012 [EBook #8742]
+Release Date: August, 2005
+First Posted: August 7, 2003
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THIS PROJECT GUTENBERG EBOOK SCIENTIFIC AMERICAN SUPPL., NO. 392 ***
+
+
+
+
+Produced by Olaf Voss, Don Kretz, Juliet Sutherland, Charles
+Franks and the Distributed Proofreaders Team
+
+
+
+
+
+
+
+
+
+
+[Illustration]
+
+
+
+
+SCIENTIFIC AMERICAN SUPPLEMENT NO. 392
+
+
+
+
+NEW YORK, JULY 7, 1883
+
+Scientific American Supplement. Vol. XVI, No. 392.
+
+Scientific American established 1845
+
+Scientific American Supplement, $5 a year.
+
+Scientific American and Supplement, $7 a year.
+
+
+       *       *       *       *       *
+
+TABLE OF CONTENTS.
+
+I.   ELECTRICITY AND MAGNETISM.--Improved Dynamo Machine.
+     Eight figures.
+
+     An Improved Manganese Battery.--By GEO. LEUCHS.
+
+     The Cause of Evident Magnetism in Iron, Steel, and other Magnetic
+     Metals.--By Prof. D. E. HUGHES. Neutrality.--Superposed
+     Magnetism.--Elastic Nature of the Ether Surrounding the Magnetic
+     Molecules. 3 figures.
+
+II.  ENGINEERING.--The Westinghouse Brake. 2 figures.
+
+     Hydraulic Elevators and Motors.--By B. F. JONES.--Bearing
+     upon the Water Supply of Cities.--Cost of Water used.--Objectionable
+     effects on Water Works.--Best method of arranging water
+     supply.--Cause of Accidents.--Advantages of Water Motors over
+     Steam Engines.--Rates for Water Motors.
+
+     Water Supply of Small Towns.--Process of Softening Hard
+     Water. Six figures.
+
+     Improved Water Meter. Several figures.
+
+III. TECHNOLOGY.--Washing Machine for Wool. 1 figure.
+
+     Increasing the Illuminating Power of Gases, etc.--By V. POPP.--
+     3 figures.
+
+     Preventing Iron from Rusting.
+
+     An Elastic Mass for Confectioners' Use.
+
+     Caoutchouc.
+
+     Photographic Action Studied Spectroscopically.
+
+     Salt and Lime.
+
+     Renewing Paint without Burning.
+
+     A Green or Golden Color for all Kinds of Brass.--By E. PULCHER.
+
+     Vinegar.
+
+     The Preservation of Meat by Carbonic Acid.
+
+     On the Adulteration of Soap.--By Dr. H. BRACKEBUSCH.
+
+IV.  CHEMISTRY.--Testing Olive Oil.--By Dr. O. BACH.
+
+     On the Theory of the Formation of Compound Ethers.
+
+     The Alizarine Industry.
+
+     Reduction of Oxidized Iron by Carbonic Oxide.
+
+V.   MEDICINE AND HYGIENE.--Bovine and Human Milk; the Difference
+     in its Action and Composition.--By C. HUSSON.
+
+     Cereal Foods in their Relation to Health and Disease.--By F. R.
+     CAMPBELL.
+
+     Moist Air in Living Rooms.
+
+     The Developmental Significance of the Human Physiognomy.--
+     By E. D. COPE.--Numerous illustrations.
+
+VI.  NATURAL HISTORY.--The Diamond Fields of South Africa.
+
+     Sponges at the Bahamas.
+
+     Testing Fish Ova for Impregnation.
+
+VII. MISCELLANEOUS.--The Production of Fire. 4 figures.
+
+     St. Blaise.--The winner of the Derby. 1 illustration.
+
+       *       *       *       *       *
+
+
+
+
+IMPROVED DYNAMO MACHINE.
+
+
+The continuous current and the alternating current generators invented
+by Dr. J. Hopkinson and Dr. Alexander Muirhead are peculiarly
+interesting as being probably the first in which the bobbins of the
+armature were wound with copper ribbon and arranged on a disk armature
+much in the same way as was afterward done by Sir William Thomson and by
+Mr. Ferranti. In the Muirhead-Hopkinson machine the armature coils are
+attached to a soft iron ring, whereas in the Ferranti the iron core is
+dispensed with, and a gain of lightness in the armature or rotating part
+effected; this advantage is of considerable importance, though Messrs.
+Hopkinson and Muirhead can of course reduce the weight of this iron core
+to insignificant proportions.
+
+[Illustration: HOPKINSON & MUIRHEAD'S DYNAMO-ELECTRIC GENERATOR.]
+
+The general form of this generator is clearly shown by the side and end
+elevation.
+
+The armature is made by taking a pulley and encircling it with a rim of
+sheet-iron bands, each insulated from the other by asbestos paper. On
+one or both sides of the rim thus formed, radial slots are cut to admit
+radial coils of insulated copper wire or ribbon, so that they lie in
+planes parallel to the plane of the pulley. In the continuous current
+machine coils are placed on both sides of the iron rim and arranged
+alternately, that on the one side always covering the gap between two on
+the other side. In this way, when a coil on one side of the rim is at
+its "dead point" and yields its minimum of current, the corresponding
+coil on the other side is giving out its maximum.
+
+The field magnets are made in a similar manner to the armature and run
+in circles parallel to the rim of the latter. The cores may be built up
+of wrought iron as the rim of the armature is; but it is found cheaper
+to make them of solid wrought or cast iron. To stop the local induced
+currents in the core, however, Messrs. Muirhead and Hopkinson cut
+grooves in the faces of the iron cores, and fill them up with sheet-iron
+strips insulated from each other, similar to the sheet-iron rim of the
+armature.
+
+The coils, both in the armature and electro-magnets, are packed as
+closely as they may to each other, and have thus a compressed or
+quadrilateral shape. The arrangement is shown in Figs. 1 and 2, which
+represent, in side view and plan, the armature pulley with the soft iron
+rim and coils attached. There a is the pulley which is keyed to the
+shaft of the machine, and is encircled with bands of sheet iron, b,
+insulated from each other by ribbons of asbestos paper laid between
+every two bands. When the rim has been built up in this way, radial
+holes are drilled through it from the outer edge inward, and the whole
+rim is bound together by bolts, d, inserted in the holes and secured by
+cottars, e. Radial slots are then cut on each side of the rim all round,
+and the coils of wire mounted on them.
+
+Figs. 3 and 4 show the armature of the continuous current dynamo, with
+the coils on one side of the rim, half way between the coils on the
+other side, so as to give a more continuous current. In the alternating
+current machine the slots on the opposite faces are face to face.
+
+Figs. 5 and 9 illustrate the complete continuous current machine, Fig.
+9 showing the internal arrangement of the field magnets, and Fig. 5 the
+external frame of cast iron supporting them. In these figures a is the
+armature already described, b b are the cores of the electro-magnets
+with a strong cast iron backing, c c; d d are the exciting coils or
+field magnets, so connected that the poles presented to the armature are
+alternately north and south, thus bringing a south pole on one side of
+the armature opposite a north pole on the other side.
+
+The commutator, e, is arranged to prevent sparking when the brushes
+leave a contact piece. This is done by splitting up the brushes into
+several parts and inserting resistances between the part which leaves
+the contact piece last and the rest of the circuit. This resistance
+checks the current ere the final rupture of contact takes place.
+
+Figs. 6 and 7 will explain the structure of the commutator. Here a a a
+are the segments or contact pieces insulated from each other, and b' b
+b are the collecting brushes carried on a spindle, c c'. One of these
+brushes, b', is connected to the spindle, c, through an electrical
+resistance of plumbago, arranged as shown in Fig. 7, where d e are metal
+cylinders, d being in contact with the brush, b', while e is in contact
+with the spindle, c. The space, f, between these two cylinders, d e, is
+filled with a mixture of plumbago and lampblack of suitable resistance,
+confined at the ends by ivory disks. The brush, b', is adjusted by
+bending till it remains in contact with any segment of the commutator
+for a short time after the other brushes have left contact with that
+segment, and thus instead of sudden break of circuit and consequent
+sparking, a resistance is introduced, and contact is not broken until
+the current has been considerably reduced.
+
+The contact segments are supported at both ends by solid insulating
+disks; but they are insulated from each other by the air spaces between
+them, where the brushes rub upon them.
+
+The alternating current dynamo of Drs. Hopkinson and Muirhead differs
+little in general construction from that we have described; except that
+the commutator is very much simplified, and the armature bobbins are
+placed opposite each other on both sides of the rim. Instead of forming
+the coils into complete bobbins, Dr. Muirhead prefers to wind them in a
+zigzag form round the grooved iron rim after the manner shown in Fig. 8,
+which represents a plan and section of the alternating current armature.
+This arrangement is simpler in construction than the bobbin winding, and
+is less liable to generate self-induction current in the armature. Sir
+William Thomson has adopted a similar plan in one of his dynamos. In
+Fig. 8, a is the pulley fixed to the spindle of the machine, b b is
+the iron rim, and c c are the zigzag coils of copper ribbon. The field
+magnets are also wound in a similar manner.
+
+It will be seen from our description that Drs. Hopkinson and Muirhead
+have scarcely had sufficient credit given them for this interesting
+machine, which so closely approximates to the Ferranti. One of their
+alternating dynamos has been built, and was shown at the Aquarium
+Exhibition. It works well, and is capable of supporting 300 Swan lights,
+while in size and appearance it resembles the Ferranti machine in a
+very striking manner. Drs. Muirhead and Hopkinson have also designed
+a magneto-electric alternating current machine; but as it closely
+resembles the machines described, with the exception that permanent
+magnets are employed as field magnets, we need not dwell upon it
+further.--_Engineering_.
+
+       *       *       *       *       *
+
+
+
+
+AN IMPROVED MANGANESE BATTERY.
+
+By GEORGE LEUCHS.
+
+
+The Leclanche battery is distinguished for its simplicity, its small
+internal resistance (0.7 to 1.0 Siemens unit), and that all chemical
+action ceases when the current is broken, that it is not sensitive to
+external influence, and by the self-renewal of the negative electrodes.
+But on the opposite side the action is not very great (= 1.20 or 1.48
+D.), and the zinc as well as the sal ammoniac are converted into
+products that cannot be utilized.
+
+I replace the solution of sal ammoniac by one of caustic potash or
+soda (12 to 15 per cent.), and the thin zinc rods by zincs with larger
+surfaces. In this manner, I obtain a powerful and odorless battery,
+having all the valuable qualities of the Leclanche, and one that
+permits of a renewal of the potash solution as well as of the negative
+electrode.
+
+The electromotive power of this element may be as high as 1.8 D. The
+same pyrolusite (binoxide of manganese) cylinder used with the same thin
+rod of zinc will precipitate 75 per cent. more copper from solution in
+an hour when caustic potash is used than when sal ammoniac is employed.
+But by replacing the thin zinc rod by a zinc cylinder of large surface,
+21/2 times as much copper is precipitated in the same time.
+
+The more powerful action of such a pair is explained by the stronger
+excitation and more rapid regeneration that the negative electrodes
+undergo from the oxidizing action of the air in the potash solution, as
+well as by the fact that this solution is a better conductor than the
+sal ammoniac solution. The potash solution does not crystallize easily,
+hence the negative electrode remains free from crystals and does not
+require filling up with water. Zinc dissolves only while in contact
+with negative bodies, hence there is no unnecessary consumption of zinc
+either in the open or closed circuit.
+
+When the potash lye has become useless, I regenerate it by removing the
+zinc in the following manner: I pour the solution from the cells, put
+it in a suitable vessel, where I add water to replace that already
+evaporated, and then shake it up well at the ordinary temperature with
+hydrated oxide of zinc (zincic hydrate). Under this treatment the
+greater portion of the zinc that had been chemically dissolved by the
+potash is precipitated in the form of zinc hydrate, along with
+some carbonate. The liquid is now allowed to settle, and the clear
+supernatant solution is poured back again into the battery cells. The
+battery has rather greater electromotive force when this regenerated lye
+is used, because certain foreign matters from the carbon, like sulphur,
+chlorine, sulphuric acid, etc., are removed by this treatment.
+
+The regeneration of the (brown coal) carbon goes on of itself, beneath
+the lye, through the oxidizing action of the atmospheric air; it is
+advantageous to have a part of the carbon sticking out of the liquid. Of
+course the regeneration takes place much more quickly if the electrodes
+are taken out and exposed to the air. In this case the carbon electrode
+need not be very thick, and can be flat or of tubular form. In the
+former case it must have a large volume, and the massive cylindrical
+form is recommended. The zinc electrode must be kept covered deeply with
+potash. The cells must have free access of air, and the potash must be
+replaced as soon as it is exhausted.--_Chem. Zeit_.
+
+       *       *       *       *       *
+
+[Concluded from SUPPLEMENT No. 390, page 6217.]
+
+
+
+
+THE CAUSE OF EVIDENT MAGNETISM IN IRON, STEEL, AND OTHER MAGNETIC
+METALS.
+
+[Footnote: Paper lately read before the Society of Telegraph Engineers
+and Electricians.]
+
+By Professor D. E. HUGHES, F.R.S., Vice-President.
+
+NEUTRALITY.
+
+
+The apparatus needed for researches upon evident external polarity
+requires no very great skill or thought, but simply an apparatus to
+measure correctly the force of the evident repulsion or attraction; in
+the case of neutrality, however, the external polarity disappears, and
+we consequently require special apparatus, together with the utmost care
+and reflection in its use.
+
+From numerous researches previously made by means of the induction
+balance, the results of which I have already published, I felt convinced
+that in investigating the cause of magnetism and neutrality I should
+have in it the aid of the most powerful instrument of research ever
+brought to bear upon the molecular construction of iron, as indeed of
+all metals. It neglects all forces which do not produce a change in the
+molecular structure, and enables us to penetrate at once to the interior
+of a magnet or piece of iron, observing only its peculiar structure
+and the change which takes place during magnetization or apparent
+neutrality.
+
+The induction balance is affected by three distinct arrangements of
+molecular structure in iron and steel, by means of which we have
+apparent external neutrality.
+
+Fig 1 shows several polar directions of the molecules as indicated
+by the arrows. Poisson assumed as a necessity of his theory, that
+a molecule is spherical; but Dr. Joule's experimental proof of the
+elongation of iron by one seven-hundred and-twenty-thousandth of its
+length when magnetized, proves at least that its form is not spherical;
+and, as I am unable at present to demonstrate my own views as to its
+exact form, I have simply indicated its polar direction by arrows--the
+dotted oval lines merely indicating its limits of free elastic rotation.
+
+In Fig. 1, at A, we have neutrality by the mutual attraction of each
+pair of molecules, being the shortest path in which they could satisfy
+their mutual attractions. At B we have the case of superposed magnetism
+of equal external value, rendering the wire or rod apparently neutral,
+although a lower series of molecules are rotated in the opposite
+direction to the upper series, giving to the rod opposite and equal
+polarities. At C we have the molecules arranged in a circular chain
+around the axis of a wire or rod through which an electric current
+has passed. At D we have the evident polarity induced by the earth's
+directive influence when a soft iron rod is held in the magnetic
+meridian. At E we have a longitudinal neutrality produced in the same
+rod when placed magnetic west, the polarity in the latter case being
+transversal.
+
+In all these cases we have a perfectly symmetrical arrangement, and I
+have not yet found a single case in well-annealed soft iron in which I
+could detect a heterogeneous arrangement, as supposed by Ampere, De la
+Rive, Weber, Wiedermann, and Maxwell.
+
+We can only study neutrality with perfectly soft Swedish iron. Hard
+iron and steel retain previous magnetizations, and an apparent external
+neutrality would in most cases be the superposition of one magnetism
+upon another of equal external force in the opposite direction, as shown
+at B, Fig. 1. Perfectly soft iron we can easily free, by vibrations,
+from the slightest trace of previous magnetism, and study the neutrality
+produced under varying conditions.
+
+[Illustration: FIG. 1.]
+
+If we take a flat bar of soft iron, of 30 or more centimeters in
+length, and hold it vertically (giving while thus held a few torsions,
+vibrations, or, better still, a few slight blows with a wooden mallet,
+in order to allow its molecules to rotate with perfect freedom), we find
+its lower end to be of strong north polarity, and its upper end south.
+On reversing the rod and repeating the vibrations, we find that its
+lower end has precisely a similar north polarity. Thus the iron is
+homogeneous, and its polarity symmetrical. If we now magnetize this rod
+to produce a strong south pole at its lower portion, we can gradually
+reverse this polarity, by the influence of earth's magnetism, by
+slightly tapping the upper extremity with a small wooden mallet. If
+we observe this rod by means of a direction needle at all parts, and
+successively during its gradual passage from one polarity to the other,
+there will be no sudden break into a haphazard arrangement, but a
+gradual and perfectly symmetrical rotation from one direction to that of
+the opposite polarity.
+
+If this rod is placed east and west, having first, say, a north polarity
+to the right, we can gradually discharge or rotate the molecules to
+zero, and as gradually reverse the polarity by simply inclining the rod
+so as to be slightly influenced by earth's magnetism; and at no portion
+of this passage from one polarity to neutrality, and to that of the
+opposite name, will there be found a break of continuity of rotation or
+haphazard arrangement. If we rotate this rod slowly, horizontally or
+vertically, taking observations at each few degrees of rotation of an
+entire revolution, we find still the same gradual symmetrical change
+of polarity, and that its symmetry is as complete at neutrality as in
+evident polarity.
+
+In all these cases there is no complete neutrality, the longitudinal
+polarity simply becoming transversal when the rod is east and west.
+F, G, H, I, J, Fig. 1, show this gradual change, H being neutral
+longitudinally, but polarized transversely. If, in place of the rod,
+we take a small square soft iron plate and allow its molecules freedom
+under the sole influence of the earth's magnetism, then we invariably
+find the polarity in the direction of the magnetic dip, no matter in
+what position it be held, and a sphere of soft iron could only be
+polarized in a similar direction Thus we can never obtain complete
+external neutrality while the molecules have freedom and do not form an
+internal closed circle of mutual attractions; and whatever theory we may
+adopt as to the cause of polarity in the molecule, such as Coulomb's,
+Poisson's, Ampere's, or Weber's, there can exist no haphazard
+arrangement in perfectly soft iron, as long as it is free from all
+external causes except the influence of the earth; consequently these
+theories are wrong in one of their most essential parts.
+
+We can, however, produce a closed circle of mutual attraction in iron
+and steel, producing complete neutrality as long as the structure is not
+destroyed by some stronger external directing influence.
+
+Oersted discovered that an external magnetic needle places itself
+perpendicular to an electric current; and we should expect that, if the
+molecules of an iron wire possessed inherent polarity and could rotate,
+a similar effect would take place in the interior of the wire to that
+observed by Oersted. Wiedermann first remarked this effect, and it has
+been known as circular magnetism. This circle, however, consists really
+in each molecule having placed itself perpendicular to the current,
+simply obeying Oersted's law, and thus forming a complete circle in
+which the mutual attractions of the molecules forming that circle are
+satisfied, as shown as C, Fig. 1. This wire becomes completely neutral,
+any previous symmetrical arrangement of polarity rotating to form its
+complete circle of attractions; and we can thus form in hard iron and
+steel a neutrality extremely difficult to break up or destroy. We have
+evident proof that this neutrality consists of a closed chain, or
+circle, as by torsion we can partially deflect them on either side; thus
+from a perfect externally neutral wire, producing either polarity, by
+simple mechanical angular displacement of the molecules, as by right or
+left handed torsion.
+
+If we magnetize a wire placed east and west, it will retain this
+polarity until freed by vibrations, as already remarked. If we pass an
+electric current through this magnetized wire, we can notice the gradual
+rotation of the molecules, and the formation of the circular neutrality.
+If we commence with a weak current, gradually increasing its strength,
+we can rotate them as slowly as may be desired. There is no sudden break
+or haphazard moment of neutrality: the movements to perfect zero are
+accomplished with perfect symmetry throughout.
+
+We can produce a more perfect and shorter circle of attractions by the
+superposition of magnetism, as at B, Fig. 1. If we magnetize a piece
+of steel or iron in a given direction with a strong magnetic directing
+power, the magnetism penetrates to a certain depth. If we slightly
+diminish the magnetizing power, and magnetize the rod in a contrary
+direction, we may reduce it to zero, by the superposition of an exterior
+magnetism upon one of a contrary name existing at a greater depth; and
+if we continue this operation, gradually diminishing the force at each
+reversal, we can easily superpose ten or more distinct symmetrical
+arrangements, and, as their mutual attractions are satisfied in a
+shorter circle than in that produced by electricity, it is extremely
+difficult to destroy this formation when once produced.
+
+The induction balance affords also some reasons for believing that the
+molecules not only form a closed circle of attractions, as at B, but
+that they can mutually react upon each other, so as to close a circle
+of attractions as a double molecule, as shown at A. The experimental
+evidence, however, is not sufficient to dwell on this point, as the
+neutrality obtained by superposition is somewhat similar in its external
+effects.
+
+We can produce a perfectly symmetrical closed circle of attractions of
+the nature of the neutrality of C, Fig. 3, by forming a steel wire into
+a closed circle, 10 centimeters in diameter, if this wire is well joined
+at its extremities by twisting and soldering. We can then magnetize this
+ring by slowly revolving it at the extremity of one pole of a strong
+permanent magnet; and, to avoid consequent poles at the part last
+touching the magnet, we should have a graduating wedge of wood, so that
+while revolving it may be gradually removed to greater distance. This
+wire will then contain no consequent points or external magnetism: it
+will be found perfectly neutral in all parts of its closed circle. Its
+neutrality is similar to C, Fig. 3; for if we cut this wire at any point
+we find extremely strong magnetic polarity, being magnetized by this
+method to saturation, and having retained (which it will indefinitely)
+its circle of attractions complete.
+
+I have already shown that soft iron, when its molecules are allowed
+perfect freedom by vibration, invariably takes the polarity of the
+external directing influence, such as that of the earth, and it does so
+even with greater freedom under the influence of heat. Manufacturers of
+electro-magnets for telegraphic instruments are very careful to choose
+the softest iron and thoroughly anneal it; but very few recognize the
+importance as regards the position of the iron while annealing it under
+the earth's directing influence. The fact, however, has long since been
+observed.
+
+Dr. Hooke, 1684, remarked that steel or iron was magnetized when heated
+to redness and placed in the magnetic meridian. I have slightly varied
+this experiment by heating to redness three similar steel bars, two
+of which had been previously magnetized to saturation, and placed
+separately with contrary polarity as regards each other, the third being
+neutral. Upon cooling, these three bars were found to have identical and
+similar polarity. Thus the molecules of this most rigid material, cast
+steel, had become free at red heat, and rotated under the earth's
+magnetic influence, giving exactly the same force on each; consequently
+the previous magnetization of two of these bars had neither augmented
+nor weakened the inherent polarity of their molecules. Soft iron gave
+under these conditions by far the greatest force, its inherent polarity
+being greater than that of steel.
+
+I have made numerous other experiments bearing upon the question of
+neutrality, but they all confirm those I have cited, which I consider
+afford ample evidence of the symmetrical arrangement of neutrality.
+
+
+SUPERPOSED MAGNETISM.
+
+Knowing that by torsion we can rotate or diminish magnetism, I was
+anxious to obtain by its means a complete rotation from north polarity
+to neutrality, and from neutrality to south polarity, or to completely
+reverse magnetic polarity by a slight right or left torsion.
+
+I have succeeded in doing this, and in obtaining strong reversal of
+polarities, by superposing one polarity given while the rod is under a
+right elastic torsion, with another of the opposite polarity given under
+a left elastic torsion, the neutral point then being reached when the
+rod is free from torsion. The rod should be very strongly magnetized
+under its first or right-hand torsion, so that its interior molecules
+are rotated, or, in other words, magnetized to saturation; the second
+magnetization in the contrary sense and torsion should be feebler, so
+as only to magnetize the surface, or not more than one-half its depth;
+these can be easily adjusted to each other so as to form a complete
+polar balance of force, producing, when the rod is free from torsion,
+the neutrality as shown at B, Fig. 1.
+
+The apparatus needed is simply a good compound horseshoe permanent
+magnet, 15 centimeters long, having six or more plates, giving it a
+total thickness of at least 3 centimeters. We need a sufficiently
+powerful magnet, as I find that I obtain a more equal distribution of
+magnetism upon a rod or strip of iron by drawing it lengthwise over a
+single pole in a direction from that pole, as shown in Fig. 2; we can
+then obtain saturation by repeated drawings, keeping the same molecular
+symmetry in each experiment.
+
+In order to apply a slight elastic torsion when magnetizing rods or
+wires, I have found it convenient to attach two brass clamp keys to the
+extremities of the rods, or simply turn the ends at right angles, as
+shown in the following diagram, by which means we can apply an elastic
+twist or torsion while drawing the rod over the pole of the permanent
+magnet. We can thus superpose several and opposite symmetrical
+structures, producing a polar north or south as desired, greatly in
+excess of that possible under a single or even double magnetization, and
+by carefully adjusting the proportion of opposing magnetisms, so that
+both polarities have the same external force, the rod will be at perfect
+external neutrality when free from torsion.
+
+[Illustration: FIG. 2.]
+
+If we now hold one end of this rod at a few centimeters distance from
+a magnetic directive needle, we find it perfectly neutral when free
+of torsion, but the slightest torsion right or left at once produces
+violent repulsion or attraction, according to the direction of the
+torsion given to the rod, the iron rod or strips of hoop-iron which
+I use for this experiment being able, when at the distance of five
+centimeters from the needle, to turn it instantly 90 deg. on either side of
+its zero.
+
+The external neutrality that we can now produce at will is absolute, as
+it crosses the line of two contrary polarities, being similar to the
+zero of my electric sonometer, whose zero is obtained by the crossing of
+two opposing electric forces.
+
+This rod of iron retains its peculiar powers of reversal in a remarkable
+degree, a condition quite different to that of ordinary magnetization,
+for the same rod, when magnetized to saturation under a single ordinary
+magnetism, loses its evident magnetism by a few elastic torsions, as I
+have already shown; but when it is magnetized under the double torsion
+with its superposed magnetism, it is but slightly reduced by variations
+or numerous torsions, and I have found it impossible to render this
+rod again free from its double polar effects, except by strongly
+remagnetizing it to saturation with a single polarity. The superposed
+magnetism then becomes a single directive force, and we can then by a
+few vibrations or torsions reduce the rod to its ordinary condition.
+
+The effects of superposed magnetism and its double polarity I have
+produced in a variety of ways, such as by the electro-magnetic influence
+of coils, or in very soft iron simply by the directive influence of
+the earth's magnetism, reversing the rod and torsions when held in
+the magnetic meridian, these rods when placed magnetic west showing
+distinctly the double polar effects.
+
+It is remarkable, also, that we are enabled to superpose and obtain
+the maximum effects on thin strips of iron from 1/4 to 1/2 millimeter in
+thickness, while in thicker rods we have far less effect, being masked
+by the comparatively neutral state of the interior, the exterior
+molecules then reaching upon those of the interior, allowing them to
+complete in the interior their circle of attractions.
+
+I was anxious to obtain wires which would preserve this structure
+against the destructive influence of torsion and vibrations, so that I
+could constantly employ the same wires without the comparatively long
+and tedious process of preparation. Soft iron soon loses the structure,
+or becomes enfeebled, under the constant to and fro torsions requisite
+where we desire a constant change of polarity, as described later in the
+magnetic bells. Hard steel preserves its structure, but its molecular
+rigidity is so great that we obtain but mere traces of any change of
+polarity by torsion. I have found, however, that fine cast drill steel,
+untempered, of the kind employed by watchmakers, is most suitable;
+these are generally sold in straight lengths of 30 centimeters. Wires
+1 millimeter in diameter should be used, and when it is desired to
+increase the force, several of these wires, say, nine or ten, should be
+formed into a single rod or bunch.
+
+The wire as sold is too rigid to give its maximum of molecular rotation
+effect. We must therefore give it two entire turns or twists to the
+right, and strongly magnetize it on the north pole of the magnet while
+under torsion. We must again repeat this operation in the contrary
+direction, after restoring the wire to its previous position, giving now
+two entire turns to the left and magnetizing it on the south pole. On
+restoring the wire to its original place, it will be extremely flexible,
+and we may now superpose several contrary polarities under contrary
+torsions, as already described.
+
+The power of these wires, if properly prepared, is most remarkable,
+being able to reverse their polarity under torsion, as if they were
+completely saturated; and they preserve this power indefinitely if not
+touched by a magnet. It would be extremely difficult to explain the
+action of the rotative effects obtained in these wires under any other
+theory than that which I have advanced; and the absolute external
+neutrality that we obtain in them when the polarities are changing, we
+know, from their structure, to be perfectly symmetrical.
+
+I was anxious to show, upon the reading of this paper, some mechanical
+movement produced by molecular rotation, consequently I have arranged
+two bells that are struck alternately by a polarized armature put in
+motion by the double polarized rod I have already described, but whose
+position, at three centimeters distant from the axis of the armature,
+remains invariably the same. The magnetic armature consists of a
+horizontal light steel bar suspended by its central axle; the bells are
+thin wine glasses, giving a clear musical tone loud enough, by the force
+with which they are struck, to be clearly heard at some distance. The
+armature does not strike these alternately by a pendulous movement, as
+we may easily strike only one continuously, the friction and inertia of
+the armature causing its movements to be perfectly dead beat when not
+driven by some external force, and it is kept in its zero position by a
+strong directive magnet placed beneath its axle.
+
+The mechanical power obtained is extremely evident, and is sufficient to
+put the sluggish armature in rapid motion, striking the bells six times
+per second, and with a power sufficient to produce tones loud enough to
+be clearly heard in all parts of the hall of the Society. As this is
+the first direct transformation of molecular motion into mechanical
+movement, I am happy to show it on this occasion.
+
+There is nothing remarkable in the bells themselves, as they evidently
+could be rung if the armature was surrounded by a coil, and worked by an
+electric current from a few cells. The marvel, however, is in the small
+steel superposed magnetic wire producing by slight elastic torsions from
+a single wire, one millimeter in diameter, sufficient force from mere
+molecular rotation to entirely replace the coil and electric current.
+
+
+ELASTIC NATURE OF THE ETHER SURROUNDING THE MAGNETIC MOLECULES.
+
+During these researches I have remarked a peculiar property of
+magnetism, viz., that not only can the molecules be rotated through any
+degree of arc to its maximum, or saturation, but that, while it requires
+a comparatively strong force to overcome its rigidity or resistance to
+rotation, it has a small field of its own through which it can move with
+excessive freedom, trembling, vibrating, or rotating through a small
+degree with infinitely less force than would be required to rotate it
+permanently on either side. This property is so marked and general that
+we can observe it without any special iron or apparatus.
+
+Let us take a flat rod of ordinary hoop iron, 30 or more centimeters
+in length. If, while holding this vertically, we give freedom to its
+molecules by torsions, vibrations, or, better still, by a few blows with
+a wooden mallet upon its upper extremity, we find, as is well known,
+that its lower portion is strongly north, and its upper south. If we
+reverse this rod, we now find it neutral at both extremities. We might
+here suppose that the earth's directing force had rotated the molecules
+to zero, or transversely, which in reality it has done, but only to the
+limit of their comparatively free motion; for if we reverse the rod to
+its original position, its previous strong polarity reappears at both
+extremities, thus the central point of its free motion is inclined to
+the rod, giving by its free motion great symmetrical inclination and
+polarity in one direction, but when reversed the inclination is reduced
+to zero.
+
+In Fig. 3, D shows the bar of iron when strongly polarized by earth's
+magnetic influence, under vibrations, with a sufficient force to have
+rotated its elastic center of action. C shows the same bar with its
+molecules at zero, or transversal, the directing force of earth being
+insufficient without the aid of mechanical vibration to allow them to
+change. The dotted lines of D suppose the molecule to be in the center
+of its free motion, while at C the molecules have rotated to zero, as
+they are prevented from further rotation by being at the extreme end of
+its free motion.
+
+If, now, we hold the rod vertically, as at C, giving neutrality, and
+give a few slight blows with a wooden mallet to its upper extremity, we
+can give just the amount of freedom required for it to produce evident
+polarity, and we then have equal polarity, no matter which end of the
+bar is below, the center of its free rotation here being perfect, and
+the rod perfectly neutral longitudinally when held east and west. If, on
+the other hand, we have given too much freedom by repeated blows of the
+mallet, its center of free motion becomes inclined with the molecules,
+and we arrive at its first condition, except that it is now neutral at
+D and polarized at C. From this it will be seen that we can adjust
+this center of action, by vibrations or blows, to any point within the
+external directing influence.
+
+[Illustration: FIG. 3.]
+
+We can perceive this effect of free rotation in a limited space in all
+classes of iron and steel, being far greater in soft Swedish iron than
+in hard iron or steel. A similar phenomenon takes place if we magnetize
+a rod held vertically in the direction of earth's magnetism. It
+then gives greater polarity than if magnetized east or west, and if
+magnetized in a contrary sense to earth's magnetism, it is very feebly
+magnetized, or, if the rod is perfectly soft, it becomes neutral after
+strong magnetization. This property of comparative freedom, and the
+rotation of its center of action, can be demonstrated in a variety of
+ways. One remarkable example of it consists in the telephone. All those
+who are thoroughly acquainted with electro-magnetism, and know that
+it requires measurable time to charge an electro-magnet to saturation
+(about one-fifteenth of a second for those employed in telegraphy),
+were surprised that the telephone could follow the slightest change of
+timbre, requiring almost innumerable changes of force per second. I
+believe the free rotation I have spoken of through a limited range
+explains its remarkable sensitiveness and rapidity of action, and,
+according to this view, it would also explain why loud sounding
+telephones can never repeat all the delicacy of timbre that is easily
+done with those only requiring a force comprised in the critical limits
+of its free rotation. This property, I have found, has a distinct
+critical value for each class of iron, and I propose soon to publish
+researches upon the molecular construction of steel and iron, in which
+I have made use of this very property as a guide to the quality of the
+iron itself.
+
+The elastic rotation (in a limited space) of a molecule differs entirely
+from that known as mechanical elasticity. In perfectly soft iron we have
+feeble _mechanical_ elasticity, while in tempered steel we have
+that elasticity at its maximum. The contrary takes place as regards
+_molecular_ elasticity. In tempered steel the molecules are extremely
+rigid, and in soft iron its molecular elasticity is at its maximum. Its
+free motion differs entirely from that given it by torsion or stress. We
+may assume that a molecule is surrounded by continuous ether, more of
+the nature of a jelly than of that of a gas; in such a medium a molecule
+might freely vibrate through small arcs, but a rotation extending beyond
+its critical limit would involve a much greater expenditure of force.
+
+The discovery of this comparatively free rotation of molecules, by means
+of which, as I have shown, we can (without in any degree disturbing the
+external mechanical elasticity of the mass) change the axes of their
+free motion in any direction desired, has led me into a series of
+researches which have only indirectly any relation with the theory of
+magnetism. I was extremely desirous, however, of finding an experimental
+evidence which in itself should demonstrate all portions of the theory,
+and the following experiment, I believe, answers this purpose.
+
+Let us take a square soft iron rod, five millimeters in diameter by
+thirty or more centimeters in length, and force the molecules, by aid
+of blows from a wooden mallet, as previously described, to have their
+centers of free motion in one direction; the rod will (as already shown)
+have polarity at both ends, when held vertically; but if reversed, both
+ends become completely neutral.
+
+If now we turn the rod to its first position, in which it shows strong
+polarity, and magnetize it while held vertically, by drawing the north
+pole of a sufficiently powerful permanent magnet from its upper to its
+lower extremity, we find that this rod, instead of having south polarity
+at its lower portion, as we should expect from the direction of the
+magnetization, is completely neutral at both extremities, but if we
+reverse the rod its fullest free powers of magnetization now appear in
+the position where it was previously neutral. Thus, by magnetization, we
+have completely rotated its free path of action, and find that we can
+rotate this path as desired in any direction by the application of a
+sufficient directing power.
+
+If we take a rod as described, with its polarities evident when held
+vertically, and its neutrality also evident when its ends are reversed
+in the same magnetic field, we find that its polarity is equal at both
+ends, and that it is in every way symmetrical with a perfect magnet. If
+we _gradually_ reverse the ends and take observations of its condition
+through each degree of arc passed over, we find an equal symmetrical
+diminution of evident external polarity, until we arrive at neutrality,
+when it has no external trace of inherent polarity; but its inherent
+polarity at once becomes evident by a simple return to its former
+position. Thus the rod has passed through all the changes from polarity
+to neutrality, and from neutrality to polarity, and these changes have
+taken place with complete symmetry.
+
+The limits of this paper do not allow me to speak of the numerous
+theoretical evidences as shown by the use of my induction balance. I
+believe, however, that I have cited already experimental evidences to
+show that what has been attributed to coercive force is really due to
+molecular freedom or rigidity; that in inherent molecular polarity we
+have a fact admitted by Coulomb, Poisson, Ampere, De la Rive, Weber,
+Du Moncel, Wiedermann, and Maxwell; and that we have also experimental
+evidence of molecular rotation and of the symmetrical character of
+polarity and neutrality.
+
+The experiments which I have brought forward in this paper, in addition
+to those mentioned in my paper read before the Royal Society, will,
+I hope, justify me in having advanced a theory of magnetism which I
+believe in every portion allows at least experimental evidences of its
+probable truth.
+
+       *       *       *       *       *
+
+
+
+
+THE WESTINGHOUSE BRAKE.
+
+
+Below we illustrate the main parts of the Westinghouse brake as applied
+to a vehicle. The supplementary reservoir brake cylinder and triple
+valve are shown in position, and as fitted upon the engine, tender, and
+each vehicle of the train. Air compressed by a pump on the locomotive
+to, say, 70 lb. or 80 lb. to the square inch fills the main reservoir on
+the engine, and flowing through the driver's brake valve and main pipe,
+also charges the supplementary reservoirs throughout the train. When
+a train is running, uniform air pressure exists throughout its
+length--that is to say, the main reservoir on the engine, the pipe from
+end to end of train, the triple valves and supplementary reservoirs on
+each vehicle, are all charged ready for work, the brake cylinders being
+empty and the brakes off. The essential principle of the system is,
+that maintaining the pressure keeps the brakes off, but letting the air
+escape from the brake pipe, purposely or accidentally, instantly applies
+them. It follows, therefore, that the brake may be applied by the driver
+or any of the guards, or if necessary by a passenger, by the separation
+of a coupling, or the failure or injury to a vital part of the
+apparatus, whether due to an accident to the train or to the brake; and
+as the brake on each vehicle is complete in itself and independent,
+should the apparatus on any one carriage be torn off, the brake will
+nevertheless remain applied for almost any length of time upon the rest
+of the train.
+
+The triple valve, as will be seen, is simply a small piston, carrying
+with it a slide valve, which can be moved up or down by increasing or
+decreasing the pressure in the brake pipe. As soon as the air from the
+main reservoir is turned into the brake pipe, by means of the driver's
+valve, the piston is pushed up into the position shown, and air is
+allowed to feed past it through a small groove into the reservoir. At
+the same time the slide valve covers the port to the brake cylinder, and
+is in such a position that the air from the latter may exhaust into the
+atmosphere. The piston has now the same air pressure on both sides; but
+if the pressure in the brake pipe is decreased, the piston and slide
+valve are forced down, thereby uncovering the passage through which air
+from the reservoir flows into the brake cylinder between the pistons,
+thus applying the brakes. The brake pipe is shut off as soon as the
+triple valve piston passes the groove. To release the brakes, the piston
+and slide valves are again moved into the position shown, by the driver
+turning air from the main reservoir into the brake pipe. The air in the
+brake cylinder escapes, and at the same time the reservoir is recharged.
+
+[Illustration: THE WESTINGHOUSE BRAKE.]
+
+Fig. 2 represents two Westinghouse couplings connected. They are exactly
+alike in all respects, and an air tight joint is made between them by
+means of the rubber washers. These couplings are so constructed that the
+air pressure within serves to tighten the joint, and they may be pushed
+apart by the separation of the train without any injury. Such an
+occurrence as already explained leads to the instant application of all
+the brakes on the train.
+
+By closing the small tap shown between the brake pipe and the triple
+valve, the brake on any vehicle, if out of order, can be cut out of the
+system. A release valve is also placed upon each cylinder as shown, so
+that in the event of the brakes being applied by the separation of
+the train, or the breaking of a pipe, or when the locomotive is not
+attached, they can be released by allowing the air to escape from each
+brake cylinder direct. The Westinghouse brake has been made to comply
+thoroughly with the Board of Trade conditions. Many people, however, do
+not appear to understand all that is involved in the second requirement,
+which runs as follows: In case of accident, to be instantaneously
+self-acting. This clearly implies: First, that accident to the train,
+or to any of its vehicles, shall cause the instant application of
+the brakes to the wheels of every vehicle in the train without the
+intervention of the driver or guards. Secondly, that any injury, however
+caused, which may impair the efficiency of the brake apparatus, shall,
+in like manner, lead to the instant application of all the brakes on
+the train. It then becomes impossible for a driver to run his train in
+ignorance of any defect in his brake apparatus because such defect at
+once discloses itself by applying the brakes and stopping the train.
+Thirdly, that each vehicle shall carry its own brake power in such a
+manner that the destruction of the brake apparatus on one or more of the
+carriages shall not affect the efficiency of the brakes upon any of the
+others. No continuous brake which does not comply with such conditions
+can ever be satisfactory.--_The Engineer_.
+
+       *       *       *       *       *
+
+
+
+
+HYDRAULIC ELEVATORS AND MOTORS.
+
+[Footnote: Read at Buffalo meeting of the American Water-Works
+Association May 15,1883.]
+
+By B. F. JONES, Kansas City.
+
+
+What I have to say in relation to elevators and motors will be mostly in
+regard to questions that their uses necessarily bring up for settlement
+at the water-works office; also to show how I have been able in a
+measure to overcome some of the many difficulties that have presented
+themselves, as well as to discuss and seek information as to the best
+way of meeting others that still have to be dealt with. At the outset,
+therefore, let me state that I am not an hydraulic engineer, nor have
+I sufficient mechanical knowledge to undertake the discussion of the
+construction or relative merits of either elevators or motors. This I
+would respectfully suggest as a very proper and interesting topic for a
+paper at some future meeting by some one of the many, eminent engineers
+of this association.
+
+The water-works of Kansas City is comparatively young, and my experience
+only dates back six or seven years, or shortly after its completion.
+At this time it was deemed advisable on account of the probable large
+revenue to be derived from their use, to encourage the putting in of
+hydraulic elevators by low water rates. With this end in view a number
+of contracts were made for their supply at low special rates for a
+period of years, and our minimum meter rate was charged in all other
+cases, regardless of the quantity of water consumed. In most instances
+these special rates have since been found much too low, parties paying
+in this way being exceedingly extravagant in the use of elevators.
+However, the object sought was obtained, and now they are very
+extensively used. In fact, so much has their use increased, that the
+question is no longer how to encourage their more general adoption, but
+how to properly govern those that must be supplied. A present our works
+furnish power to about 15 passenger and 80 freight elevators, and the
+number is rapidly increasing.
+
+Before going into details it seems proper to give at least a brief
+description of our water-works, as my observations are to a great extent
+local.
+
+On account of the peculiar topography of Kansas City (and I believe it
+has more topography to the square foot than any city in the country)
+two systems of water supply have been provided, the high ground being
+supplied by direct pumping, and a pressure of about 90 pounds maintained
+in the business portion, and the lower part of the city being supplied
+by gravity, from a reservoir at an elevation of 210 feet, thus giving
+the business portions of the city, on high and low ground, about the
+same pressure. By an arrangement of valves, a combination of these
+two systems is effected, so that the Holly machinery can furnish an
+increased fire pressure at a moment's notice, into either or both pipe
+systems. Thus at some points the pressure is extremely high during the
+progress of fires, causing difficulties that do not exist where the
+gravity system of works is used exclusively.
+
+Elevators have become an established institution, and in cities of any
+commercial importance are regarded as a necessity, hotels, jobbing
+houses, factories, and office buildings being considered as far behind
+the times when not thus provided, as a city without a water supply or a
+community without a "boom." The use of elevators has made it practicable
+and profitable to erect buildings twice as high as were formerly thought
+of. Perhaps some of the most notable examples of this are in New York
+city, where such structures as the Mills building, the buildings of the
+_Tribune, Evening Post_, and Western Union Telegraph Co.. tower high
+above the surrounding blocks, monuments of architecture, that without
+this modern invention would reflect little credit upon their designers.
+It is now found less labor to go to to the fifth, sixth, or even tenth
+floors of these great buildings than it was to reach the second or
+third, before their use. In these days, merchants can shoot a ton of
+goods to the top of their stores in less time than it would take to get
+breath for the old hoist or "Yo, heave O" arrangement. Thousands of
+dollars are sometimes expended on a single elevator, the cars are
+miniature parlors, and the mechanism has perhaps advanced to nearly the
+perfection of the modern steam engine. If then they have become such a
+firmly established institution, their bearing upon the water supply of
+cities is a subject to be carefully considered.
+
+As before intimated, there are many questions involved in the use of
+hydraulic elevators, that particularly concern towns supplied by direct
+pumping, and perhaps other places where the supply by gravity is
+somewhat limited. In a few larger cities supplied by ample reservoirs
+and mains, some of the difficulties suggested are not serious. Very
+little power is necessary to perform the actual work of lifting, with
+either steam or hydraulic elevators, but on account of the peculiar
+application of the power, and the great amount of friction to be
+overcome, a very considerable power has to be provided. It has been
+estimated, by good authorities, that not more than one-quarter of the
+power expended in most cases is really utilized.
+
+With all hydraulic elevators of which I have cognizance, as much water
+is required to raise the empty cars as though they were loaded to
+maximum capacity. Still, to be available for passenger purposes
+elevators must have capacity of upward of 2,500 pounds, particularly in
+hotels, where the cars are often arranged with separate compartments
+underneath for baggage. In general use it is exceptional that passenger
+elevators are fully loaded; on the contrary less than half a load is
+ordinarily carried, and for this reason it would appear that no actual
+benefit is derived from at least one-half of the water consumed. In this
+connection it has occurred to me that passenger elevators could be built
+at no great additional cost, with two cylinders, small and large, the
+two piston rods of which could be connected so as to both operate the
+same cable, either or both furnishing power, the smaller cylinder to be
+used for light loads, the larger for heavy work, and the two together
+for full capacity, this independent valve arrangement to be controlled
+by a separate cable running through the car. Whether this plan is
+practicable or not must be left to elevator manufacturers, but it seems
+to me that with the Hale-Otis elevator for instance (which is conceded
+to be one of the best) it could easily be accomplished. Certainly some
+such arrangement would effect a great saving of water, and perhaps bring
+water bills to a point that this class of consumers could afford to pay.
+
+Hydraulic elevators where the water is used over and over again, by
+being pumped from the discharge to elevated tanks, cut little or no
+figure in connection with a city's water supply. When fuel, first cost,
+attendance of an engineer, and the poor economy of the class of pumps
+usually employed to perform this work are considered, the cost of
+operating such elevators is greatly in excess of what it would be if
+power were supplied direct from water mains, at any reasonable rate. The
+following remarks will then relate almost exclusively to that class of
+hydraulic elevators supplied with power directly from the water mains.
+
+Let us now consider whether they are a desirable source of revenue, and
+in this my knowledge does not exceed my actual experience. Few elevator
+users appreciate the great quantity of water their elevators consume.
+Even in Kansas City, where, on account of the high pressure carried,
+much smaller cylinders than ordinarily are required, it is found that
+passenger elevators frequently consume 500,000 to 800,000 gallons of
+water per month, which will make a very considerable bill, at the most
+liberal rates. I have, therefore, concluded that the quantity of water
+was so large that, unless liberal concessions were made, it would be a
+hardship to consumers to pay their water bills, and have therefore made
+a special schedule, according to quantity, for elevators and motors,
+these rates standing below our regular meter rates, and running to the
+lowest point at which we think we can afford to furnish the water. This
+schedule brings the rate below what we would receive for almost any
+other legitimate use of water; and, in view of our rapidly increasing
+consumption, and the probability of soon having to increase all our
+facilities, it is an open question whether this will continue a
+desirable source of revenue.
+
+In Kansas City we have elevators of various manufacture: the Hale-Otis,
+Ready, Smith & Beggs, O'Keefe, Kennedy, and perhaps others, each having
+its peculiarities, but alike demanding large openings in the mains
+for supply. These large openings are objectionable features with any
+waterworks, and especially so with direct pumping. An occurrence from
+this cause, about two years ago, is an experience I should not like
+repeated, but is one that might occur whenever the pressure in the mains
+is depended upon to throw fire streams. In this instance a large block
+of buildings occupied by jobbing houses and having three elevators was
+burned down, and the elevator connections broken early in the fire,
+allowing the water to pour into the cellars in the volume of about
+twelve ordinary fire streams. This immense quantity of water had to be
+supplied from a 6-inch main, fed from only one end, which left little
+pressure available for fighting the fire, and as a matter of course
+failure to subdue the fire promptly was attributed to the water-works.
+We have since had up hill work to restore confidence as to our ability
+to throw fire streams, although we have demonstrated the fact hundreds
+of times since.
+
+From this time we have been gradually cutting down on the size of
+openings for elevator supply, but under protest of the elevator agents,
+who have always claimed that they should be allowed at least a 4-inch
+opening in the mains, until we have found that under 80 to 90 pounds
+pressure two to four 1-inch taps will answer the purpose, provided the
+water pipes are of ample size.
+
+The "water hammer" produced by the quick acting valves of elevators has
+always been objectionable, both in its effect at the pumping-house
+and upon water mains and connections. To obviate this, Engineer G. W.
+Pearson has suggested the use of very large air chambers on the elevator
+supply, and still smaller openings in the mains, his theory being that
+the air chambers would not only materially decrease the concussion or
+"water hammer," but that they would also act as accumulators of power
+(or water under pressure) to be drawn from at each trip of the elevator,
+and replaced when it was at rest. This plan I have never seen put to
+actual test, but believe it to be entirely practicable, and that we will
+have to ultimately adopt it.
+
+All things considered, the plan of operating elevators from tanks in
+the top of buildings, supplied by a small pipe connected with the
+water-mains and arranged with a float valve to keep the tank filled, I
+believe to be the best manner of supply, except for the great additional
+cost of putting up such apparatus. By this arrangement the amount of
+water consumed is no less, in fact it would ordinarily be more than with
+a direct connection with the mains, but it has the advantage of taking
+the water in the least objectionable manner. Still, if this mode of
+supply were generally enforced, the large first cost, an additional
+expense of operating, would undoubtedly deter many from using elevators.
+
+Another evil in connection with the use of elevators, and which no doubt
+is common, is the habit many parties have of keeping a key or wrench to
+turn on and off the water at the curb. This we have sought to remedy
+by embracing in our plumbers' rules the following: "All elevator
+connections in addition to the curb stop for the use of the Water
+Company must be provided with another valve where the pipe first enters
+the building for the use of occupants of the building." Without this
+extra valve it was found almost impossible to keep parties from using
+the curb valve. In most cases the persons were perfectly responsible,
+and as there was no intent to defraud the company by the act, they would
+claim this privilege as a precaution against the pipes bursting or
+freezing. This practice was very generally carried on, and was the
+direct cause in at least two cases of very serious damage. In the
+instances referred to, the pipes burst between the elevator and the
+area wall of buildings, and the valves outside had become so worn
+from frequent use that they would not operate, allowing the water to
+literally deluge the basements before the water main could be turned
+off.
+
+One of the greatest causes of waste from elevators is the wearing out of
+the piston packing, this being particularly troublesome in most of the
+Western cities, where the water supplied is to a large extent from
+turbid streams, carrying more or less fine sand or "grit," which cuts
+out the packing of the pistons very rapidly. The only practicable remedy
+for this is close inspection, to see that the pistons do not allow water
+to pass, a fact that can readily be determined from the noise made in
+the cylinder when the elevator is in motion going upward.
+
+I have reserved one of the most annoying features of elevator supply for
+the last, hoping to work myself into a mood to do the subject justice,
+but doubt if it can be done in language proper to use before this
+dignified body. I remember on one occasion the mayor of our city, in
+discussing a job of plumbing, said that it seemed to him "that even a
+plumber ought to know something about plumbing." Now it would seem that
+even elevator agents ought to know something about elevators, but from
+the following incident, which is but one of many, I am led to believe
+that they are not infallible to say the least. Only a short time since,
+one of these very reliable (?) agents reported at our office that he had
+just attached a new indicator to the elevator of a leading hotel. He was
+asked: "What does it register?" and promptly replied, "Cubic feet."
+In this case our inspector had already made an examination, and had
+correctly reported as follows: "Hale elevator; indicator started at zero
+February 28; internal diameter of cylinder, 12 inches; travel of piston
+for complete trip 301/4 feet; indicator registers for complete trip, 4."
+
+When it is understood that we had for a long time been assuming that
+elevator agents knew about all there was to know on the subject, a
+comparison of statements of this agent and our inspector is somewhat
+startling. Now let us see what the difference amounted to: At the end of
+the month the indicator had registered 12,994; calling it cubic feet,
+this register would equal 97,195 gallons. According to our inspector,
+this same register would equal 578,233 gallons, or a difference of
+nearly half a million of gallons for a single month. Our experience with
+the agents in Kansas City has shown that they will, if allowed, put any
+kind of an indicator on the most convenient point of any sort of an
+elevator, without the slightest regard as to what it was intended to
+indicate; then report it as registering cubic or lineal feet, whichever
+they find the indicator marked. On the same principle they could as
+well change the fulcrum of a Fairbanks scale, and then claim it weighed
+pounds correctly, because pounds were marked upon the bar. We have
+lately prepared a blank, upon which these agents are required to make a
+detailed report upon the completion of an elevator before the water
+will be turned on, which it is hoped will to some extent correct this
+trouble.
+
+I have come to regard an elevator indicator with a feeling of wonder.
+Some years ago, when the "planchette" first came out, I remember that
+it acquired quite a reputation as a particularly erratic piece of
+mechanism, but for real mystery and _innate cussedness_, on general
+principles, commend me to the indicator. Why, I have known an indicator
+after registering a nice water bill, to deliberately and without
+provocation commence taking it all off again, by going backward. This
+crab-like maneuver the agent readily explained by saying the "ratchet
+had turned over," but even he was unable to show us how to make the
+bills after these peculiar gyrations. I also find that it is quite a
+favorite amusement for indicators to stop entirely, like a balky horse,
+after which no amount of persuasion will bring them to a realizing sense
+of their duty.
+
+Even at the best, these indicators are very apt to get out of order,
+necessitating greater watchfulness in supplying elevators than for any
+other purpose for which water is furnished.
+
+Accidents in connection with the use of elevators are common throughout
+the country, and in Kansas City had, until within a short time, become
+of altogether too frequent occurrence. The great cause of this I believe
+to be due to the fact that the parties who usually operate elevators
+are the very ones who know least about them; the corrosion of pistons,
+crystallization and oxidation of cables, and many other disorders common
+to elevators, being matters they do not comprehend. The frequency
+and fatality of these accidents in Kansas City finally led the city
+authorities to appoint an Elevator Inspector, who is under heavy bond,
+and whose duty is to examine every elevator at least once a month, and
+to grant license to run only such as he deems in safe condition. Thus
+far since the establishment of this office we have had no serious
+accidents, which leads me to the belief that in most cases a monthly
+examination will discover in time the causes of many terrible
+casualties; also that it is not safe to operate elevators unless so
+inspected by some competent person.
+
+The hatchways of elevators in large buildings are points greatly feared
+by firemen. They well know that when a fire once reaches this shaft, it
+takes but a moment for it to be carried from floor to floor, until the
+building is soon past saving. Although this great danger is well known,
+it is the exception rather than the rule to provide elevators with
+fire-proof hatches. A properly constructed elevator should, it seems
+to me, be provided with hatches, or better still, built within brick
+fire-proof walls, with openings to be kept closed when not in use. In
+this way costly buildings, valuable merchandise, and many lives would be
+saved from fire every year.
+
+Although considerable has been said on the subject of elevators, I am
+aware that the ground has not been covered, and that difficulties have
+been pointed out more than remedies suggested. There is much yet to be
+brought out by the engineers, to whom the subject more properly belongs.
+
+In the mean time, although elevators claim many of the objectionable
+features in the business of water supply, most of them are not of a
+nature that should condemn their use; on the contrary, I hope that
+with the joining of our experience there will be an improvement in the
+methods of their supply. Inasmuch as they must be furnished with water,
+all that can be done is to adopt such rules and fix such rates as will
+compensate in some degree for their objectionable qualities.
+
+
+WATER MOTORS.
+
+My remarks on this subject I trust will be more to the have been point
+than they upon the questions already discussed. Certainly my ideas are
+more decided, so far at least as supplying water motors is concerned.
+
+In many respects I believe water motors furnish as nearly perfect power
+as it is possible to attain. A motor, for instance, properly connected
+and supplied by the even pressure from a reservoir is probably the most
+reliable and steady power known, not excepting the most improved and
+costly steam engines. The convenience and little attendance necessary in
+operating make them especially desirable for many purposes. Where only
+small power is required, or even where considerable power for only
+occasional use is desired, they are particularly well adapted, and
+can be driven at small expense. Even for greater power they possess
+advantages over steam engines which, to a considerable extent,
+compensate for the large water rates that ought to be paid for their
+supply. These advantages are in the first cost of a motor, as compared
+with a steam engine, the saving in attendance and fuel, the convenience
+and cleanliness, and in some cases a saving in insurance by reason of
+their being no fire risks attendant upon its use. At just what point
+steam becomes preferable, however, is a question depending considerably
+upon water rates, but to some extent on other circumstances, leaving
+it largely a question of judgment. As with elevators, there are
+difficulties involved in their supply that unless carefully guarded make
+water motors anything but a desirable source of revenue. How often is
+the argument advanced: "Why, I only use water for a quarter of an inch
+jet!" Showing how little people who use motors or elevators or fountains
+realize the quantity of water they consume. This class of consumers may
+be placed on one footing, to wit, a class who, in spite of the fact that
+they are supplied with water for much less than any other, feel that
+they are imposed upon, and cannot be made to think otherwise.
+
+Though not as large as for elevator supply, water motors require liberal
+openings in the mains, and frequently the fault of having too small
+supply pipes is sought to be remedied by openings in the water mains
+much larger than needful. A table prepared by an engineer who had given
+the matter study, or by some motor manufacturer, showing the size of
+taps, or openings, for the proper supply of motors, with the various
+jets, under different pressures, would be of general use to water-works
+people. In order to use water to the best advantage, the full pressure
+in the main, so far as practicable, should be had at the jet, but in
+order to accomplish this it is not necessary to use as large taps as are
+ordinarily demanded, but to provide supply pipes of sufficient capacity
+to deliver the water to the point of discharge with the least possible
+friction. Lately this theory has been put in practice to some extent by
+us, and the result has shown that in this manner we are able to supply
+motors through smaller taps than beforehand with as satisfactory
+results.
+
+It is a general practice throughout the country to make annual or
+monthly rates for water motors, and from my observation I believe I can
+safely venture the assertion that in three-quarters of the cases the
+rates charged will not equal 50 per cent. of the lowest meter rates in
+force in these places. Although the Kansas City Water-Works has not
+perhaps been generally accorded the reputation of being the most liberal
+"monopoly" in the country, still I have had occasion at times to make
+some such claims as an inducement to its generous support. But with all
+its liberality, I am free to say that we cannot begin to meet the rates
+for motors that parties claim to have paid almost everywhere else.
+
+The St. Louis Water-Works, where the rates are substantially the same as
+in Kansas City, have been quoted as having the following motor rates,
+but whether correct or not my inquiries have failed to determine:
+
+"On the supposition that motors are to be used ten hours per day for 300
+days per year, motors are assessed for--
+
+  ___________________________________
+    1/4 inch jets | $120 per annum. |
+    3/8  "        |  198  "   "     |
+    1/2  "        |  300  "   "     |
+  ----------------+-----------------+
+
+These rates based upon a charge of 50 cents per 1,000 gallons."
+
+From Col. Flad's Report as Engineer of Public Works, May 1, 1876, p.70,
+it is found that with 42 pounds pressure a 1/2 inch orifice will discharge
+2,160 gallons per hour, 21,600 gallons in 10 hours, or 6,480,000 gallons
+in 300 days, which at 20 cents per 1,000 gallons would amount to $1,296,
+for which they assess the rate $300. From all of which I would conclude
+that there must be a lack of harmony somewhere between the engineering
+and office departments.
+
+I have made some estimates myself for water motors, basing rates upon
+the number of hours it was claimed the motors would be in use, and
+afterward supplied the same motors by meter measurement; in every case
+found that at least twice as much water was used as had been estimated.
+Although estimates were carefully made upon what was believed to be
+a reliable basis, these repeated similar results have led me to the
+conclusion that the only way to supply motors is to make it an object to
+the users of them to be economical. In other words, I believe the way to
+supply water motors is upon an estimate that they will run 24 hours per
+day and 365 days per year, or, more properly still, supply them only by
+meter measurement. At all events this is henceforth my policy; or, in
+other words, "on this rock I stand," believing it the only equitable way
+out of this difficulty.
+
+That class of motors or water engines operated by water pressure in
+close cylinders upon pistons as with steam in a steam engine, I believe
+could be easily supplied by measurement of water without a meter. This
+could be accomplished by the use of "revolution counters" or indicators,
+as the amount of water required per revolution could be readily
+determined, and when once computed the cylinders would measure out the
+water as accurately as a meter. The only objection to this plan is the
+expense of counters, which is considerable; and as to indicators, it may
+have been observed that I have little faith in their reliability. With
+cheap revolution this class of motors would be free from many of the
+objections raised in regard to motors generally.
+
+The practical conclusion that I would draw from a consideration of
+this subject is that the question of whether the supply of hydraulic
+elevators and motors is desirable in its effects upon the water supply
+is one that hinges so delicately upon their being carefully governed,
+connected, and restricted, that while on the one hand they may be made
+the source of large profit, and at the same time a public benefit, on
+the other hand, unless all the details of their supply be carefully
+guarded by the wisest rules and greatest watchfulness, their capacities
+for waste are so great and the rates charged necessarily so low, that
+they may become the greatest source of loss with which we have to
+contend. I therefore trust that this discussion will be continued until
+an interest is felt that will result in our all receiving much useful
+information upon two most important factors of our business.
+
+As this paper has been long for the information contained, I will close
+with the earnest wish that it may at least be of service in bringing
+these important but often neglected subjects to the attention of the
+thinking and intelligent body of men, of whom many have had much longer
+and more general experience in relation to these matters, and whose
+views when expressed will consequently be of more interest and have
+greater weight. Thus as a result may we all derive the benefit of
+whatever useful information there is to be gained by this annual
+interchange of experiences in the all-important business of public water
+supply.
+
+       *       *       *       *       *
+
+
+
+
+WATER SUPPLY OF SMALL TOWNS.
+
+
+We now describe the new waterworks lately erected for supplying the town
+of Cougleton, Cheshire. The population is about 12,000, and the place is
+a seat of the silk manufacture. After various expensive plans had been
+suggested, in the year 1879 a complete scheme for the supply of the town
+with water was devised by the then borough surveyor, Mr. Wm. Blackshaw,
+now borough surveyor of Stafford. These we now illustrate above by a
+general drawing, and a separate drawing of the tower. With respect
+to the mechanical arrangements, the Corporation called in Mr. W. H.
+Thornbery, of Birmingham, consulting engineer, to decide on the best
+design of those submitted, and this, with modifications made by him, was
+carried out under his inspection. The water, for the supply by pumping,
+is obtained from springs situated at the foot of Crossledge Hill, about
+a mile from the town. It does not at present require filtering, but
+space enough has been allowed for the construction of duplicate
+filtering beds without in any way interfering with the present
+appliances. These filter beds are shown in our perspective illustration,
+but they are not yet built or required.
+
+[Illustration: WATER SUPPLY OF SMALL TOWNS--CONGLETON WATERWORKS.]
+
+The waterworks are situated very near the springs, from which they are
+only separated by a road, under which the collecting pipes run. There
+are two circular collecting tanks of brickwork, two pumping wells,
+engine-house, boiler-house, chimney stack, and engine-driver's
+dwelling-house, all inclosed by a wall. On the top of Crossledge Hill is
+erected a circular brick water tower 35 ft. high to the underside of the
+service tank, which is of cast iron 30 ft. internal diameter, supported
+on rolled girders. The tank is capable of containing 50,000 gallons
+of water, and it is provided with the usual rising and service mains,
+overflow and washout pipes. There is an arrangement for pumping direct
+into the mains in case the tank should require cleaning or repairing.
+
+The pumping machinery is in duplicate, and each set consists of a
+horizontal condensing engine, with cylinder 18 in. diameter, stroke 30
+in., fitted with Meyer's expansion gear, governor, fly-wheel 12 ft.
+diameter, weighing 4 tons, jet condenser with a single acting vertical
+air pump, situated below the engine room floor, and between the end
+of the cylinder and the main pump. Each main pump is 10 in. diameter,
+horizontal, double-acting, worked by a prolongation backward of the
+piston-rod. The valves and seats are of gun metal, 81/2 in. diameter. The
+capacity is 350 gallons per minute, raised 206 ft. The air vessel is 21
+in. internal diameter and 6 ft. high, and is fitted with a hand pump for
+renewing the supply of air if necessary. The rising main from the air
+vessel to the service tank is 9 in. diameter, and 307 yards long, laid
+up the steep slope of the hill on which the water tower is built. The
+boilers, two in number, are of the ordinary Cornish single-flued type, 5
+ft. diameter by 18 ft. long, with flue 2 ft. 9 in. diameter, with three
+Galloway tubes. They were made by Messrs. Hill & Co., of Manchester. The
+engines and pumps were made by Mr. Albert Scragg, of Congleton, and the
+brick, stone, and builder's work was executed by Mr. Thomas Kirk. The
+waterworks were opened in the autumn of 1881, and since then have
+constantly afforded an abundant supply of water. There is also an
+independent gravitation system, also arranged by Mr. Blackshaw, for
+supplying an outlying part of the town. The cost of the works was
+exceedingly moderate, being not more than L12,000, including the water
+mains for distribution.
+
+
+PROCESS FOR SOFTENING HARD WATER.
+
+The available water of many villages and small towns is that of the
+chalk beds, but it is invariably very hard, and should be softened. We
+have received so many inquiries respecting a simple means of carrying
+out Clarke's water-softening process, that the following description
+of a set of apparatus devised for this purpose by Messrs. Law and
+Chatterton, MM.I.C.E., may interest many besides those who contemplate
+the construction of small waterworks supplied by the chalk springs.
+
+The apparatus, as made in various sizes by Messrs. Bowes, Scott,
+and Read, of Broadway-chambers, Westminster, we illustrate by the
+accompanying engravings.
+
+_Softening hard water_.--The disadvantages attending the use of hard
+water either for drinking purposes, steam generation, lavatory purposes,
+and for many manufacturing purposes, are well known, but as there are
+several methods of softening waters which are hard in different degrees
+by different substances, we may be pardoned if we here reproduce, for
+the convenience of some of our readers, a few passages from the sixth
+report of the River Pollution Commission, 1874, pages 21 and 201-16,
+which give some very valuable information on the relative merits of
+hard and soft waters in domestic and trade uses. "Some of the mineral
+substances which occur in solution in potable waters communicate to the
+latter the quality of hardness. Hard water decomposes soap, and cannot
+be efficiently used for washing. The chief hardening ingredients are
+salts of lime and magnesia. In the decomposition of soap these salts
+form curdy and insoluble compounds containing the fatty acids of
+the soap and the lime and magnesia of the salts. So long as this
+decomposition goes on the soap is useless as a detergent, and it is
+only after all the lime and magnesia salts have been decomposed at the
+expense of the soap, that the latter begins to exert a useful effect.
+As soon as this is the case, however, the slightest further addition of
+soap produces a lather when the water is agitated, but this lather is
+again destroyed by the addition of a further quantity of hard water.
+Thus the addition of hard water to a solution of soap, or the converse
+of this operation, causes the production of the insoluble curdy matter
+before mentioned. These facts render intelligible the process of washing
+the skin with soap and hard water. The skin is first wetted with the
+water and then soap is applied; the latter decomposes the hardening
+salts contained in the small quantity of water with which the skin
+is covered, and there is then formed a strong solution of soap which
+penetrates into the pores, and now the lather and impurities which it
+has imbibed require to be removed from the skin by wiping the lather off
+with a towel or by rinsing it away with water. In the former case the
+pores of the skin are left filled with soap solution; in the latter they
+become clogged with the greasy, curdy matter which results from the
+action of the hard water upon the soap solution which had previously
+gained possession of the pores of the cuticle. As the latter process of
+removing the lather is the one universally adopted, the operation of
+washing with soap and hard water is analogous to that used by the dyer
+and calico printer for fixing pigments in calico, woolen, or silk
+tissues. The pores of the skin are filled with insoluble greasy and
+curdy salts of the fatty acids contained in the soap, and it is only
+because the insoluble pigment produced is white, or nearly so, that so
+repulsive an operation is tolerated. To those, however, who have been
+accustomed to wash in soft water, the abnormal condition of skin thus
+induced is for a long time extremely unpleasant.
+
+Of the hardening salts present in potable water, carbonate of lime is
+the one most generally met with, and to obtain a numerical expression
+for this quality of hardness a sample of water containing 1 lb. of
+carbonate of lime, or its equivalent of other hardening salts, in
+100,000 lb.--10,000 gallons--is said to have 1 deg. of hardness. Each degree
+of hardness indicates the destruction and waste of 12 lb. of the best
+hard soap by 10,000 gallons of water when used for washing. Hard water
+frequently becomes softer after it has been boiled for some time. When
+this is the case, a portion at least of the original hardening effect is
+due to the bicarbonate of lime and magnesia. These salts are decomposed
+by boiling into free carbonic acid, which escapes as gas, leaving
+carbonates of lime and magnesia; the latter being nearly insoluble in
+water, ceases to exert more than a very slight hardening effect, and
+produces a precipitate. As the hardness resulting from the carbonates
+of lime and magnesia is thus removable by boiling the water, it is
+designated temporary hardness, while the hardening effect which is due
+chiefly to the sulphates of lime and magnesia, and cannot be got rid of
+by boiling, is termed permanent hardness. The total hardness of water
+is therefore commonly made up of temporary and permanent hardness.
+A constant supply of hot water is now almost a necessity in every
+household, but great difficulties are thrown in the way of its
+attainment by the supply of hard water to towns forming thick calcareous
+crusts in the heating apparatus.
+
+Waters with much temporary hardness are most objectionable in this
+respect, and the evil is so great where the heating is effected in a
+coil of pipe, as practically to prevent, in towns with hard water, the
+use of this most convenient method of heating water. The property of
+being softened by boiling which temporarily hard water possesses is not
+of much domestic use, for water is, as a rule, either not raised to a
+sufficiently high temperature or not kept at it for a long enough time.
+Seeing then the disadvantages attendant on the use of hard water, it
+remains to be considered how best to soften it. Four processes are known
+to the arts. They are: Distillation, carbonate of soda, boiling, lime.
+Of these processes the first and second are the most effective, but
+owing to their expense are not applicable on a large scale. The third
+and fourth processes are efficient only with certain classes of water,
+rendered hard by the presence of the bicarbonate of lime, magnesia,
+or iron. The fourth is, however, a very cheap process, and is easily
+applicable to the vast volumes of water supplied to large cities,
+provided the hardening ingredients are of the character described.
+
+_Softening by distillation_.--By evaporation, water is completely
+separated from all fixed saline matters, and consequently from all
+hardening matters. Distilled water, however, has a vapid and unpleasant
+taste, due partly to deficient aeration and partly to the presence of
+traces of volatile organic matter; and though filtration through animal
+charcoal will remove this, and the aeration can begin chemically, the
+process is too expensive, except in certain cases, as on board ship, or
+at military or naval stations where no potable water exists.
+
+_Softening by carbonate of soda_.--The hardness of water, as already
+explained, being principally due to the presence in solution of
+bicarbonates and sulphates of lime and magnesia, can be reduced by
+addition of carbonate of soda, which decomposes these salts slowly in
+cold water but quickly in hot, forming insoluble compounds of lime and
+magnesia, which are slowly precipitated as a fine mud, leaving the water
+charged, however, with a solution of bicarbonate and sulphate of soda.
+This process, on account of expense, is only applicable on a small scale
+to the water for laundry purposes, as the water acquires an unpleasant
+taste from the presence of the soda salts. For laundry purposes it is,
+however, valuable, as it effects a great saving of soap.
+
+_The softening of water by boiling_.--That portion of the hardness of
+water due to the presence of bicarbonate of lime, magnesia, or iron, is
+corrected by boiling the water for half an hour. During ebullition the
+bicarbonates, which are soluble, become carbonates, which are insoluble,
+giving off their carbonic acid as gas, rendering--by the precipitate
+produced, but not allowed in a boiler time to settle--the water muddy,
+but incapable of decomposing soap. To raise the temperature of 1,000
+gallons of water to the boiling point and to maintain it for half an
+hour requires the consumption of about 21/2 cwt. of coal, or by the
+wasteful appliances found in households, probably three times that
+amount. Softened by boiling, then, 1,000 gallons of water would cost
+about 7s. 6d., while the cost of softening the same amount by soap is
+9s., at L2 6s. 6d. per cwt.
+
+_The softening of water by lime_.--The economy which carbonate of
+soda exhibits in comparison with soap as a softening material is far
+surpassed by the use of lime. Lime costs about 8d. per cwt., and this
+weight of lime will soften the same volume of water as would require the
+use of 201/4 cwt. of soap. From the above it is evident--so soon as it is
+conceded that there is an advantage in using soft water--that the lime
+process is by far the most economical. Besides the chemical action
+affecting the hardness, it has another most important mechanical action,
+in consequence of the weight of each particle composing the precipitate
+produced by it. These particles during subsidence become attached to the
+almost microscopical organic impurities present in all river water, and
+drag them down to the bottom of the settling tank, whereby the water is
+rendered, after some eight hours, clear as crystal. The average cost of
+the water supplied by the leading metropolitan water companies is L10
+10s. 93/4d. per million gallons. The charge made by the companies to
+consumers is about 6d. per 1,000 gallons, or L25 per million gallons.
+It has been found that water can on a large scale be softened from 14 deg.
+hardness to 5 deg. at a cost of 20s. per million gallons--that is, 10 per
+cent. on the cost of the water to the companies, or 4 per cent. as the
+price charged to consumers. This estimate does not take into account the
+value of the precipitated chalk, which has a market price, and is used
+for many purposes, being, in fact, whiting of the purest quality. The
+operations necessary in Clarke's process are four in number: (1) The
+preparation of milk of lime; (2) the preparation of a saturated solution
+of lime; (3) the mixture of this solution with the water to be softened;
+(4) the classification of the softened water by the separation of
+the precipitated substances Messrs. Law and Chatterton effect these
+processes by simple mechanical means which are so far automatic that
+they only require the presence of a person, without technical knowledge,
+once in each twenty-four hours. No filtering medium whatever is
+required, which is a great advantage for the following reasons: (1)
+Filtering materials require periodical cleaning and renewal, which
+not only occasion much trouble and mess, but are also frequently
+inefficiently performed. (2) Experience has shown that the filtering
+material, whether cloth, charcoal, or other substance, is extremely
+liable to become mouldy or musty, which makes the wafer both unwholesome
+and unpalatable. This system is especially adapted for small water
+supplies and for use in country houses, there being no operation to
+perform requiring either technical, chemical, or mechanical knowledge,
+nor producing dust or dirt.
+
+[Illustration: Fig. 1.--LAW AND CHATTERTON'S WATER-SOFTENING APPARTUS.]
+
+The following is a description of this apparatus as fitted at the
+Hoo, Luton, Bedfordshire, for the supply of Mr. Gerard Leigh's house,
+grounds, and home farm. The mixing of the lime and the subsequent
+stirring of the water is effected by water power obtained from a
+turbine. The whole of the apparatus and tanks occupy a space 60 ft.
+square, 3,600 ft. area, and soften a daily supply of 50,000 gallons.
+
+[Illustration: Fig. 2]
+
+A pump driven from the turbine forces the water to a reservoir in the
+park and on to the house, an ingenious automatic arrangement worked by
+the overflow from the cistern throwing the pump out of gear when the
+tank is full. A, B, and C. Figs. 1 to 6 herewith, are three tanks in
+which the water remains to be softened, each capable of holding one
+day's supply. D and E are two smaller tanks in which the lime water is
+prepared; X is the automatic valve apparatus by which the connections
+between the several tanks are effected in the order and at the times
+required; H and H show the positions in which two pumps should be
+placed, the former for pumping unsoftened water into the tanks, the
+latter to pump the softened water into the supply cistern. J is the pipe
+from the well or other source of supply--in case the supply is at a
+higher level, one pump can be dispensed with. The operation consists in
+adding to the water to be softened a certain quantity of lime water,
+depending upon the degree of hardness, and in then allowing the mixture
+to rest in a state of perfect quiescence until the whole of the lime has
+been deposited and the water has become perfectly clear. The tank, A,
+has been filled with unsoftened water. Tank B contains the water
+and lime in process of clarification by subsidence after mechanical
+agitation by the screw. Tank C contains the softened water--and the
+precipitate--in process of removal for consumption. The mode of working
+is as follows: The milk of lime, prepared by slaking new lime in a
+"Michele mixer"--not shown. One of the tanks, D, having been filled with
+softened water, run by gravity from one of the tanks, A, B, or C, the
+requisite amount of milk of lime is allowed to flow into it from the
+lining machine, and the whole having been thoroughly mixed by the patent
+agitator, G, is left in a quiescent state for some hours, when the
+superabundant lime falls to the bottom, and the tank contains a
+perfectly clear and saturated solution of lime. The requisite quantity
+of lime water is then suffered to flow by gravity into whichever of the
+three tanks is empty. In the mean while, the softened water is being
+withdrawn by pumping or gravitation, as the case may be, from the tank
+C, until, upon the water being lowered to within a certain distance of
+the bottom, an automatic arrangement shifts the valve, X, so that the
+supply then commences from B, the unsoftened water flows into C, and
+the water is in process of clarification in A, and thus the operation
+proceeds continuously. Where the water can be supplied by gravitation,
+and the tanks can be placed at a sufficient elevation to command the
+service cistern, no pumps are required, the softening process, in fact,
+in no way necessitating pumping. The space occupied by the whole of the
+tanks and apparatus is 60 ft. square, 3,600 ft. area, and softens 50,000
+gallons per day. For the daily softening of quantities less than 1,000
+gallons, the tanks are made of galvanized sheet iron, and the whole
+apparatus and tanks are self-contained, so as only to require the making
+of the necessary connections with the existing supply and delivery
+pipes, and fixing in place. No expensive foundations are required, and
+the entire cost of an apparatus--see Figs. 2, 3, 4, 5, and 6--capable of
+softening 500 gallons per day is about L75. Annexed is a more detailed
+description of the manner of fixing and working the smaller apparatus.
+
+[Illustration: Fig. 3]
+
+The tank must, of course, be set up perfectly level. The pipe from the
+source of supply--in the present case from the hydraulic ram--must
+be attached to the upper three way cock at A, on the accompanying
+engravings, and the pipe to supply softened water is to be connected
+to the lower three-way cock at B, and should be led into the elevated
+cistern with a ball cock so as to keep it always filled. The three ball
+cocks in C, D, and E should be adjusted to allow the tanks to fill to
+within 3 in. of the top. The nuts at the upper extremity of the three
+rods, F, G, and H, should be so adjusted that when the water in the
+several tanks has been drawn down to within 15 in. of the bottom the
+rocking shaft, I I, is drawn down and the vertical rod, J, lifted so as
+to allow the wheel, K, and spindle, L, to revolve by the action of the
+weight, M. The length of the chain is such that when the weight, M,
+rests upon the floor the face of the raised rim on the wheel, K, should
+not quite touch the rod, J, and if necessary, a thin packing should be
+put for the weight to drop upon. The lime to be used should be pure
+chalk lime free from clay, mixed with water to a smooth, creamy
+consistency, and then poured into the small tank, N. This tank should
+then be filled with water to within 3 in. of the top, and the small air
+pump worked until the lime has become thoroughly mixed and diffused
+throughout the water. Care must be taken that previous to filling the
+tank the float, O, is raised up, as shown by the dotted lines in Fig. 3.
+After the lime has been thoroughly mixed it should be left for at
+least eight hours for the superabundant lime to subside, leaving the
+supernatant fluid a perfectly clear saturated solution of lime. At the
+end of this time the float, O, should be lowered, so that it may float
+upon the lime water, and the three-way cock, P, should be turned in such
+a position as to allow the contents of the tank, N, run into the
+tank, Q, until the necessary quantity has been supplied, the mode of
+determining which is hereinafter described.
+
+[Illustration: Fig. 4]
+
+The spindle, L, should then be turned into the position which allows the
+water from the source of supply to be discharged into the tank, Q, the
+float, R, having first been raised into the position shown in Figs. 2
+and 5. A second quantity of the lime should now be added to the tank, N,
+mixed with water, and after agitation, another eight hours allowed for
+the contents of both the tanks, Q and N, to subside. At the end of
+this time the three-way cock, P, should be turned through a third of
+a circle, so as to discharge the lime water into the tank, S; and the
+spindle, L, should be turned in the contrary direction to the hands of a
+watch through the third of a circle, so as to allow the water from the
+source of supply to be discharged into the tank, S, care being taken as
+before to raise the float, T, out of the water. A third quantity of lime
+must be added to the tank, N, and now mixed with water to be drawn from
+the tank, Q, by the tap, U, and after agitation again left for eight
+hours to subside. The float, R, may now be lowered into the water in the
+tank, Q, when it will be found that the clear softened water contained
+in the tank, Q, will be discharged through the pipe attached to the
+bottom of the three way tap, B. The weight, M, must now be lifted about
+5 in., so as to allow the ring at the end of the chain to be moved back
+to the next stud on the wheel, K. The lime water in the tank, N, must
+next be discharged into the tank, V, and then another quantity of lime
+must be added to the tank, N, and filled up with softened water from the
+tank, S, by means of the tap, W, and after being duly agitated and left
+to subside. As soon as the softened water from the tank, Q, has been
+drawn down to within 15 in. of the bottom, the rod, H, will move the
+rocking shaft, I, and lift the rod, J, so releasing the wheel, K, and
+allowing the weight, M, to descend and turn the spindle, L, and the
+upper and lower three-way cocks through a third of a circle; the effect
+of which movement will be to continue the supply of softened water from
+the tank, S, and to fill up the tank, V, with water from the source of
+supply.
+
+[Illustration: Fig. 5]
+
+The apparatus will now be in the condition to afford a regular supply
+of softened water; all that will be necessary to insure its continuous
+action will be that at certain stated intervals dependent upon the
+rapidity with which the water is used--but which interval should not
+be less than eight hours--the following things should be done: (1) The
+float must be raised out of the tank last emptied. (2) The float must be
+lowered into the tank last filled. (3) The weight, M, must be raised,
+and the ring of the chain shifted to the next stud on the wheel, K. (4)
+The clear lime water found in the tank, N, must be turned into the tank
+last emptied. (5) The requisite quantity of lime must be put into the
+tank, N. (6) The requisite quantity of water must be drawn off from the
+tank last filled into the tank, N. (7) The contents of tank, N, must be
+thoroughly mixed by means of the air pump. The quantity of lime to be
+used for each tankful of water must depend upon the hardness of the
+water, 3/4 oz. being required for each tankful for each degree of
+hardness. It is desirable, however, always to have an excess of lime in
+the tank, N, so as to insure obtaining a saturated solution of lime.
+When first mixed the contents of the tank, N, will have a creamy
+appearance, but when the superabundant lime has subsided the supernatant
+liquid will be a perfectly clear saturated solution of lime. Therefore,
+in the first instance, 3 lb. of lime should be put into the tank, N, and
+subsequently each time such a quantity of lime should be added as is
+found to be necessary by the method hereinafter described. The quantity
+of the saturated lime water to be run into each of the softening tanks,
+Q, S, and V, will depend upon the hardness of the water. For every
+degree of temporary hardness a depth of 1-6/10 in. of the contents of
+the tank, N, will be required; so that if the water has 14 deg. of
+temporary hardness, then 221/2 in. in depth of lime water must be run off
+into each of the tanks, Q, S, and V. In the first instance an excess of
+lime may be used, and the softened water tested by means of nitrate of
+silver in the following manner: A solution of 1 oz. of nitrate of silver
+in a pint of twice distilled water should be obtained. Having let two
+or three drops of this solution fall on the bottom of a white tea cup,
+slowly add the softened water; then if there be any excess of lime, a
+yellow color will show itself, and the quantity of lime water used must
+be reduced until only the faintest trace of color is perceptible.--_The
+Engineer_.
+
+[Illustration: Fig. 6]
+
+       *       *       *       *       *
+
+
+
+
+IMPROVED WATER METER.
+
+
+We annex illustrations of a meter designed by Mr. A. Schmid, of Zuerich,
+and which, according to _Engineering_, is now considerably used on
+the Continent, not only for measuring water, but the sirup in sugar
+factories, in breweries, etc. It consists of a cast iron body containing
+two gun-metal-lined cylinders, and connected by an intermediate chamber.
+Round the body are formed two channels, one for the entrance and the
+other for the discharge of the water, etc., to be measured. Within the
+cylinder are placed two long pistons, provided with openings in such
+a way that each piston serves as a slide valve to the other, the flow
+being maintained through the ports in the connecting chamber. The
+arrangement of openings in the piston is shown in Figs. 5, 6, 7, and the
+intermediate passages in Figs. 1, 2, and 3. To the upper side of each
+piston is attached a cross-head working on a disk placed at each end of
+a horizontal shaft. To one of the disks is added a short connecting rod
+that drives the spindle of a counter.
+
+[Illustration: SCHMID'S WATER METER.]
+
+       *       *       *       *       *
+
+
+
+
+WASHING MACHINE FOR WOOL.
+
+
+The washing machines in use for wool on the rake principle have during
+the last few years experienced many improvements in the details of
+their arrangement, which we have illustrated at different times in our
+columns. The introduction of these improvements and alterations shows
+that the washing of wool has attracted more attention on the part of
+observant manufacturers and machine makers, and demonstrated at the same
+time that the machines hitherto in use, with all their advantages, left
+much to be desired in other respects. The main difficulty with all
+washing machines for wool has been the avoidance of felting of the wool,
+which tendency is increased by the use of warm water for washing and by
+the agitation that some consider necessary for a thorough cleansing of
+the wool and removal of the adhering impurities, but which agitation is
+deprecated by others.
+
+[Illustration: IMPROVED WOOL WASHING MACHINE.]
+
+Referring to our different illustrations of improvements in this
+direction, our subscribers will observe that the tendency of all these
+has been to keep the wool floating in the water, and to apply all
+mechanical appliances required for its cleansing and pressing as much as
+possible while it is in this suspended condition. The success which the
+different appliances and improvements mentioned by us have had when used
+for the class of wool for which they are intended, has induced us to
+look up any attempts in a similar direction which have been made on the
+Continent, where the subject has attracted attention, as well as with
+us. We therefore give the annexed illustration of a machine invented by
+a German woolen manufacturer, which in many respects is a wide departure
+from the acknowledged type in use in this country. As with the English
+machines, the wool enters from a creeper at one end, passes through a
+long trough, filled with water or lye, ascends an inclined plane, and
+passes out through a pair of squeezing rollers. The invention mentioned
+applies to the treatment in the trough which latter is shown in our
+illustration at K. It has a second bottom, a little distance from a
+false one, at K. The false bottom is traversed in its whole length by
+an air pipe, communicating with the atmospheric air outside the trough.
+From this longitudinal pipe other pipes branch off at right angles at
+stated intervals, as shown in section in Fig. 2. These smaller pipes
+contain a number of small perforations on their upper part, through
+which the air ascends into the water in innumerable small bubbles. This
+is one of the principal aims of the invention, for in ascending the
+bubbles lift the wool more or less to the surface and tend to open it
+out without the risk of doing so by any mechanical means liable to
+produce felting. This is the same effect that is produced in many cases
+so successfully in boiling. Instead of rakes the inventor has placed
+four hexagonal drums into the trough, marked D, E, F, G. The flat parts
+of these drums are made of perforated metal and set back a little. This
+produces an alternate passing of the water into and out of them during
+their revolution and consequent sucking and repulsing of the wool, which
+also likewise agitates it. These drums are made wide at the entrance end
+of the trough and gradually narrower toward the delivery end. The pipe,
+V V, is the usual steam pipe for heating the water.
+
+We have said before that the improvements introduced into the wool
+washing machines nearer home have been of advantage for the wools for
+which they are intended, and possibly the invention just described will
+also be valuable in some cases.--_Tex. Manuf._
+
+       *       *       *       *       *
+
+
+
+
+INCREASING THE ILLUMINATING POWER OF GASES, ETC.
+
+By V. POPP, of Paris.
+
+
+This invention relates to lighting by mixing air or other gaseous
+supporter of combustion with illuminating or other hydrocarbon gas or
+vapor, and burning the mixture (at a suitable pressure) in a burner of
+special construction, shown in the accompanying illustrations.
+
+[Illustration]
+
+The burner is constructed as shown in Figs 1 and 2. It consists of a
+central tube, i, screwing upon the pipe by which the gaseous mixture is
+supplied. Upon this tube is screwed a cup, k, of metal or refractory
+material which supports a cap, l, of fire-clay in the shape of a thimble
+(or of other form, according to the intended use of the burner). The
+flanged base of this cap is perforated with a ring of holes, m, as small
+and numerous as possible, and the sides of the cap are pierced with
+oblique perforations, n. The top of the tube, i, is provided with four
+small projections, upon which rests a copper cone, o, soldered to the
+tube at a point below the perforations in the base of the thimble. The
+cone is perforated at its lower end with small holes, p, the sum of
+whose areas is at least equal to the area of the tube. The thimble,
+l, is surrounded by an envelope, q, of platinum wire netting or other
+refractory material of the same form. The gaseous mixture arriving by
+the pipe, i, escapes at the upper orifices, r, and passes down against
+the interior surface of the cone, o, out at the orifices, p, and escapes
+through the orifices in the cap, l, at which it is burned. The cap is
+thereby raised to a high temperature; and the platinum wire sheath
+becoming incandescent radiates the light. The gaseous mixture, by coming
+first in contact with the copper cone and then with the refractory cap,
+becomes raised to an exceedingly high temperature before it is consumed.
+
+In the modified burner represented in Fig. 3, the metal cone and the
+fire-cap are truncated. The tube, i, is provided with a number of small
+perforations, r, at its upper end, the sum of whose areas is at least
+equal to the area of the tube, and by which the gaseous mixture is
+distributed within the chamber, k. Upon the upper closed end of the tube
+is fixed a cup or inverted thimble, o, of fire-clay. A refractory cone,
+l, surrounds this cup and rests by its base upon the cup. This flanged
+base is perforated with small vertical holes, m, and upon it is fixed a
+platinum wire cage or envelope, q. An annular space is left between the
+cone and cup for the passage of the gaseous mixture, which, on escaping
+from the orifices, r, passes over the exterior surface of o, the
+interior of which is already heated by the flame which has not passed
+through the wire gauze, and has been forced by the pressure of the
+mixture into the interior of o. The gaseous mixture before passing
+through the annular space thus attains such a temperature that on
+escaping from the orifice its combustion is greatly promoted.
+
+       *       *       *       *       *
+
+
+
+
+PREVENTING IRON FROM RUSTING.
+
+
+In the present state of civilization the use of iron has reached a very
+wide extension, and in a great number of cases iron is used where wood
+or stone was formerly used. It is certainly an important question how
+this metal can be protected under all circumstances against rust or
+oxidation, so that the many costly iron structures may retain their
+usefulness and strength, and be handed down uninjured to posterity.
+
+Wherever bright iron comes into contact with air and moisture it
+immediately begins to rust, and this rust is not content to continually
+rob it of its substance in its persistent progress by scaling off the
+surface, but at the same time it injures the remainder of the iron by
+making it brittle. Attempts have hitherto been made to protect the iron
+by covering it with other and less easily oxidizable metals. For this
+purpose tin was first selected, then lead and zinc, and recently nickel.
+Furthermore, earthy glazings and enamels, such as are used on stone
+ware, have been applied to iron vessels, and they have already found
+extensive use in the household. In most cases these coatings, either
+metallic or vitreous, are inapplicable, either because they cannot be
+applied or are too expensive, so that on a large scale recourse must be
+had to paints made by mixing oils with metallic oxides, earths, etc.,
+for protecting the surface of the iron from air and moisture.
+
+It has been observed that iron does not rust in _dry_ air, not even in
+dry oxygen. In like manner it frequently happens that unpainted iron,
+such as weather vanes, fences, etc., is exposed to the air for a century
+with very little injury, being covered with a thin coating of the
+magnetic oxide (proto-sesquioxide), which acts as a protection and
+prevents farther action. Hence it has been proposed to produce a layer
+of this magnetic oxide on the surface artificially, and it was found
+that superheated steam furnished the means for doing this. But it is not
+to be supposed that such a process would find use on a large scale, and
+besides this protection could only serve for iron tolerably exposed to
+the open air and not for that in direct contact with carbonic acid and
+water.
+
+An interesting observation has been made on railways that the iron
+rails, ties, bolts, etc., rust until the road begins to be used. Here we
+must assume that anything made of iron is more inclined to rust when at
+rest than if occasionally caused to vibrate, when an electrical action
+probably comes into play and decreases the affinity of iron for oxygen.
+
+In tearing down old masonry iron bonds and clamps are often found which
+are as free from rust, so far as they are covered with mortar, as they
+were the day they left the blacksmith's hands. A French engineer met
+with such a phenomenon when he uncovered the anchor plates of several
+chain bridges which had been built about thirty years. Where the anchors
+were covered with the fatty lime mortar of the masonry they showed no
+traces of rust, but the prolongations of the anchors in empty spaces
+were rusted to such an extent that they were only one-third of their
+original thickness.
+
+It has been repeatedly observed that iron does not rust in water in
+which are dissolved small quantities of caustic alkalies or alkaline
+earths, which neutralize every trace of acid. It seems that these
+experiences are the basis of A. Riegelmann's (Hanau) new protection
+against rust. The paint that he uses contains caustic alkaline earths
+(baryta, strontia, etc.), so that the iron is in a condition similar to
+the iron anchors of the chain bridges that were embedded in lime mortar.
+Although a paint is not thick enough to inclose so much alkali as the
+masonry did that the iron was embedded in, nevertheless the alkaline
+action will make itself felt as long as the coating has a certain
+consistence. Under all circumstances, however, these new paints will
+be free from active acids, which is more than can be said of our iron
+paints hitherto in use. Besides this, the rust protector has such
+a composition that it could serve its intended purpose without the
+addition of any alkali. If experience confirms this claim, it will be an
+interesting step forward in the preservation of iron, and contribute to
+an extension in the use of iron.--_Polytechn. Notizblatt_.
+
+       *       *       *       *       *
+
+[Illustration: SUGGESTIONS IN DECOTATIVE ART.--A CUPBOARD IN ITALIAN
+WALNUT WITH DARKER PANELING.--_From The Workshop_.]
+
+       *       *       *       *       *
+
+
+
+
+AN ELASTIC MASS FOR CONFECTIONERS' USE.
+
+
+It should be made in a well glazed earthen crock; metallic vessels are
+not good, as the gelatine burns too easily on the sides, and dries
+out where it gets too hot. Nor is a water bath to be recommended for
+dissolving the gelatine, for the sides get too hot and dry out the
+gelatine.
+
+A quart of water is put in the crock and heated to boiling; it is then
+taken off the open fire and two pounds of the finest gelatine stirred
+in, a little at a time. After the gelatine is completely dissolved there
+is to be added eight or ten pounds (according to the quality of the
+gelatine) of the finest white sirup previously warmed, and constantly
+stirred. The mass must not boil, as it would easily burn, or turn brown
+and acquire a bad color.
+
+Thirty or forty pounds of a beautiful white elastic mass can be made by
+this recipe in an hour at a cost of ten or twelve cents. Its chief use
+is for making figures and ornaments to put on bridal cakes and other
+fanciful productions of the confectioner. It contains no harmful
+ingredients and can be eaten without danger. If coloring is added,
+cochineal, plant green (chlorophyl), and turmeric are safer than aniline
+colors.
+
+       *       *       *       *       *
+
+
+
+
+CAOUTCHOUC.
+
+
+A. Levy contributes the following brief account of this subject to the
+_Moniteur Scientifique_:
+
+The crude gum cut in irregular strips is passed five or six times
+between two strong rolls sixteen inches in diameter, and making two
+or three revolutions per minute. These rolls are kept wet by water
+trickling on them. This broad strip of gum is perforated with foreign
+substances and looks like a sieve. It is next put in the cutting
+machine, a horizontal drum provided with an axle having knives on it. So
+much heat is produced by this cutting that the water would soon boil if
+it were not renewed. A second machine of this kind completes the cutting
+and subdividing, and expels the air and water from it. The mass is then
+pressed in round or quadrangular blocks.
+
+The vulcanization of thin articles from one twenty-fifth to
+one-sixteenth inch thick, is done by Parkes' patented process, that is,
+dipping it in carbon disulphide for a short time, to which chloride or
+bromide of sulphur has been added, and when the solvent has evaporated
+the sulphur remains behind. Balls, ornamental articles, and surgical
+apparatus are dipped into melted sulphur at 275 deg. or 300 deg. Fahr.
+
+The third most important process consists in mixing in the sulphur
+mechanically with the gum in the cutting machine.
+
+After the pieces have received the form they are to have they are heated
+with steam or hot air to 275 deg. Flat articles are vulcanized between
+press plates heated by steam. This vulcanization is said to have been
+discovered accidentally by searching different colored stuffs, some of
+which were dyed yellow with sulphur; the latter stood well.
+
+Hard rubber contains more sulphur, and is heated longer and higher.
+Small or fine tubes and hose are made by a continuous machine that
+presses it through a hole with a core to it. Large hose is made by
+wrapping strips around iron rods or tubes. The little air balloons
+are made in Paris (their value is $300,000) by Brissonet from English
+Mackintosh cloth. Powdered soapstone is strewed over it in cutting. The
+edges are united by hammering on a horn anvil, or by machinery through
+simple adhesion, and the cut surfaces are smooth.
+
+       *       *       *       *       *
+
+
+
+
+PHOTOGRAPHIC ACTION STUDIED SPECTROSCOPICALLY.
+
+
+At the last meeting of the Chemical Society Captain Abney gave a lecture
+on the above subject to a large audience. We may premise by saying that
+the demonstrations he gave were carried out principally by means of
+experiments on paper, to enable his hearers to understand the different
+points he wished to enforce. The lecture was commenced by insisting on
+the fact that all photographic action took place within the molecules of
+the compound acted upon and not on the molecule itself, and from this
+he deduced that the absorption of radiation which take place by such
+compounds is principally caused by the atoms composing the molecule.
+This was found to be the case in the organic liquids, which the lecturer
+to some extent had investigated, where he had further traced the
+absorption to the vibrating atoms of hydrogen in those bodies. In
+order to properly investigate the action of light it was necessary to
+ascertain which components of light in the spectrum were the chief
+agents in causing it, and this led him to consider the means to be
+employed to obtain a spectrum.
+
+The effects of diffraction gratings were first discussed, and in two
+which were shown it was found that in some spectra the visible portions
+were dimmed; in others the ultra-violet and the infra-red were almost
+entirely absent. It thus became necessary to investigate the condition
+of a grating before placing any confidence in the results obtained. This
+was the first pitfall into which an experimentalist was liable to fall.
+If prisms were used for obtaining the spectrum, then precautions had
+also to be taken, since all glass absorbed a portion of the ultra-violet
+rays and some the infra-red. On the whole, he considered that the best
+glass to use was pure white flint glass for the collimator, the prisms,
+and the camera lens. Another inquiry that was necessary was the
+source of radiation which it was proposed to use. Diagrams showed the
+unsatisfactory nature of solar radiation, and a photograph of the whole
+spectrum, taken with it under certain atmospheric conditions in which
+the effect of the green rays were almost _nil_, demonstrated the false
+conclusions that might be deduced as to the sensitiveness of any
+particular compound.
+
+Captain Abney also showed the satisfactory conditions which existed in
+using the crater of the positive pole of the electric arc light as a
+source, and by diagrams illustrated the inferiority of an incandescent
+light for the purpose, owing to the deficiency of violet and
+ultra-violet rays. Having thus settled the source of illumination and
+the kind of apparatus to employ, he next considered the conditions under
+which the sensitive salts were to be exposed. The action of ordinary
+sensitizers was explained and demonstrated by experiments, from which
+point the results of certain colored sensitizers were considered. Thus,
+various aniline dyes were proved to be bromine absorbents, and likewise,
+more or less, to be capable of being acted upon by light in those
+regions of the spectrum they absorbed. The result of the two effects was
+to produce a developable image of the spectrum just in those parts to
+which the salt of silver was sensitive, and also in the parts where the
+dye itself was acted upon. The latter effect was traced to the organic
+matter being oxidized in the presence of the sensitive silver salt.
+
+The sensitizing effect of one silver compound upon another was then gone
+into, and experiments and photographs showed where two salts of silver
+were in contact with one another, and without an energetic sensitizer
+being at hand, that the one when acted upon by light absorbed the
+halogen liberated from the other through the same cause and that a new
+molecule was formed. This was of importance, since in photographic
+spectroscopic researches a conclusion might be arrived at that a
+body suffered absorption in those regions of the spectrum where this
+interesting reaction took place, whereas in reality the phenomenon might
+be due to the silver salts employed. This was another pitfall for the
+unwary. Again, it became necessary in studying photographic action to
+make sure that the effect of radiation was only a reducing action, and
+that the results were not vitiated by some other action.
+
+The destruction by oxidizing agents of the effect produced by light was
+then experimentally demonstrated, and photographs of the spectrum showed
+that this effect was increased by the action of light itself. Thus, when
+immersing a plate sensitive to all radiations, visible and invisible,
+in a very dilute solution of nitric acid, bichromate of potash, or
+hydroxyl, it was shown that if the plate were exposed to light, first
+the parts acted upon by the red rays were reduced before the parts not
+acted upon at all by the spectrum, thus conclusively proving that light
+itself helped forward the oxidation or so-called solarization of the
+image. It thus became a struggle, under ordinary circumstances, between
+the reducing action on the normal salt and the oxidizing action on the
+altered salt as to which should gain the mastery. If the reducing action
+of any particular ray were the most active, then a negative image
+resulted, whereas if the oxidizing action were in the ascendant, a
+positive image resulted. Thus, in determining the action of light on
+a particular salt, this antagonism had to be taken into account, and
+exposure made with such precautions that no oxidizing action could
+occur, as would be the case if an inorganic sensitizer, such as sulphite
+of soda, were used.
+
+The reversal of the image by soluble haloid salts, such as bromide of
+potassium, was then dwelt upon with experimental demonstration. It was
+shown that the merest trace of soluble haloid would reverse an image
+by the extraction of bromine from it, and the fact that the most
+refrangible part of the spectrum was principally efficacious in
+completing this action showed how necessary it was to avoid falling
+into error when analyzing photographic action by the spectroscope. A
+reference was next made to gelatine plates, in which, owing to their
+preparation, reversal through the above cause was most likely to take
+place, and a plate soaked in sulphite of soda and exposed in the camera
+for a couple of minutes--a time largely in excess of that necessary to
+give a reversal under ordinary circumstances--proved the efficacy of
+the oxygen absorber, the image remaining in its normal condition after
+development.
+
+The lecturer closed his remarks by showing the different molecular
+states of iodide, bromide, and chloride of silver, as produced by
+different modes of preparation. The color of the film by transmitted
+light in every case indicated the effect which was likely to be produced
+on them, and the photographed spectrum in each of them showed the
+remarkable differences that were found. The points raised by Captain
+Abney at different times are well worthy the study of scientific
+photographers, since strict attention to the modes of exposure to the
+spectrum, to the instruments employed, and to the source of light used
+can alone insure accuracy in comparative experiments.--_Br. Jour. of
+Photo_.
+
+       *       *       *       *       *
+
+
+
+
+SALT AND LIME.
+
+
+M.F.K. communicates the following interesting circumstance to _Neueste
+Erfindung_.: A few years ago it was decided to whitewash the walls
+and ceiling of a small cellar to make it lighter. For this purpose a
+suitable quantity of lime was slaked. A workman who had to carry a
+vessel of common salt for some other purpose stumbled over the lime
+cask and spilled some of his salt into it. To conceal all traces of his
+mishap he stirred in the salt as quickly as possible. The circumstance
+came to my knowledge afterward, and this unintentional addition of salt
+to the lime excited my liveliest curiosity, for the whitewash was not
+only blameless, but hard as cement, and would not wash off.
+
+After this experience I employed a mixture of milk of lime and salt
+(about three parts of stone lime to one part of salt), for a court or
+light well. To save the trouble and expense of a scaffold to work on, I
+had it applied with a hand fire engine (garden syringe?) to the opposite
+walls. The results were most satisfactory. For four years the weather
+has had no effect upon it, and I have obtained a good and cheap means of
+lighting the court in this way.
+
+       *       *       *       *       *
+
+
+
+
+RENEWING PAINT WITHOUT BURNING.
+
+
+It is stated in the _Gewerbeblatte fur Hessen_ that paint can be renewed
+and refreshed in the following manner:
+
+When cracks and checks appear in the paint on wooden articles, this
+usually indicates that the varnish has cracked. If this is the case, the
+article can easily be prepared for a fresh coat by sponging it over with
+strong ammonia water, and two or three minutes later scraping off the
+varnish with the broad end of a spatula before the ammonia has dried up.
+
+In this way the first coat is removed. If it is necessary to remove the
+next coating, the same operation is repeated. After the last coat
+has been scraped off that is to be removed, it must be washed with
+sufficient water to render the ammonia inactive, and then the surface is
+rubbed with pulverized pumice to make it smooth. Any desired paint or
+varnish can be applied to a surface prepared in this way.
+
+       *       *       *       *       *
+
+
+
+
+TESTING OLIVE OIL.
+
+By DR. O. BACH.
+
+
+There is no department in analytical chemistry in which so little
+success has been attained as in the testing of commercial fats and oils.
+All methods that have been proposed for distinguishing and recognizing
+the separate oils, alone or mixed, bear upon them the stamp of
+uncertainty.
+
+The facts observed by J. Koenig, and described by him in his excellent
+book entitled "_Die Menschlichen Nahrungs und Genussmittel_" (p. 248),
+excited great expectations; viz., that the quantity of glycerine in
+vegetable fats was much less than the amount required to combine with
+all the fatty acids, and that the quantity of oleic acid in the oils
+that he examined exhibited essential differences. Koenig himself asserts
+that the fats have hitherto been too little investigated to found upon
+it a method for distinguishing them, but that nevertheless it may
+possibly do good service in some cases.
+
+My own estimation of the amount of glycerine in different olive oils, by
+Koenig's method, has shown, unfortunately, that the percentage may vary
+from 1.6 to 4.68, according to the origin and quality of the oil. In
+like manner the estimation of the oleic acid, which was conducted
+essentially in the manner proposed by Koenig, showed that the amount of
+oleic acid in different olive oils varied from 45 to 54 per cent. But
+since cotton seed oil, for example, which is most frequently used to
+adulterate olive oil, contains 5 per cent. of glycerine, and 59.5 per
+cent. of oleic acid, it is easy to see an admixture of cotton seed oil
+cannot be detected by this method, which appeared to be so exact.
+
+The method of analysis that I am about to describe is based chiefly upon
+the determination of the melting point of the fatty acids contained in
+the oils, and upon their solubility in a mixture of alcohol and acetic
+acid.
+
+The oils employed in adulterating olive oil, and to which regard must be
+had in testing it, are the following: Cotton seed oil, sesame, peanut,
+sun flower, rape, and castor oils. The tests for the two last named
+have hitherto never presented any difficulty, as rape seed is easily
+detected, owing to the sulphur in it, by saponifying it in a silver
+dish, and castor oil by its solubility in alcohol. But in recent times
+another product has come into the market called sulphur oil or pulpa
+oil, obtained by extracting the pressed olive cake with sulphide of
+carbon. This also gives a sulphur reaction when saponified, while it
+resembles castor oil by its solubility in alcohol. When this oil is
+mixed with ordinary olive oil, it can easily deceive any one who uses
+the ordinary tests.
+
+My method of testing olive oil is as follows:
+
+First, the so-called elaidine test is made, and then the test with
+nitric acid. About 5 c. c. (a teaspoonful) of the oil is mixed in a test
+tube with its own volume of nitric acid, spec. gr. 1.30, and shaken
+violently for one minute. At the expiration of this time the oils will
+have acquired the following colors: Olive oil, pale green; cotton seed
+oil, yellowish brown; sesame, white; sun flower, dirty white; peanut,
+rape, and castor oils, pale pink or rose.
+
+As soon as the color has been observed, the test glass is put in a water
+bath at the full boiling temperature and left there five minutes. It was
+found that the action of nitric acid upon cotton seed and sesame oil was
+the most violent, sometimes so violent as to throw the oil out of the
+glass. At the end of another five minutes after the test tube is taken
+out of the water bath, the following colors are seen: olive and rape
+oils are red; castor oil is golden yellow; sun flower oil, reddish
+yellow; sesame and peanut, brownish yellow; cotton seed, reddish brown.
+
+After standing 12 to 18 hours at about 60 deg. Fahr. the olive, rape, and
+peanut oils will have solidified; sun flower, castor, and cotton seed
+will be like salve (sticky), while sesame will remain perfectly liquid.
+Mixtures of olive oil with small quantities of cotton seed or sesame are
+distinguished by this characteristic--that, although the whole mass,
+which is darker in color than olive oil, solidifies at first, at the end
+of 24 or 36 hours a brown oil will be found floating upon the surface of
+the solid mass, while the lower strata exhibit the yellow color of pure
+olive oil. Oil of rosemary has no effect when shaken with cold nitric
+acid, and imparts to it only a slightly darker color on heating. Oils
+treated with lye act just like pure oils.
+
+Far the purpose of determining the melting point of the fatty acids, 10
+grammes of oil were saponified with 5 grammes of caustic potash on the
+water bath; some water and alcohol being added. After all the alcohol
+had been expelled the soap was dissolved in hot water, and the fatty
+acids separated from the clear solution by adding hydrochloric acid.
+After prolonged heating these acids will swim on the salt solution as
+a perfectly clear oil, a portion of which is then put into a little,
+narrow, thin walled tube and allowed to solidify. The point at with it
+melts and solidifies is determined by putting this tube in a beaker
+glass filled with water and warming with a small flame. A thermometer
+is placed _in_ the fatty acids and moved gently about during the
+observation, and the point accurately observed at which the whole mass
+becomes perfectly clear, and also when the mercury bulb begins to be
+clouded. It was found that the acids from pure olive oil melt between
+261/2 and 281/2 deg. C. (= 80 deg. to 83 deg. Fahr.) and solidify at a point not lower
+than 22 deg. C. (72 deg. Fahr.). The melting point of the fatty acids in the
+oils used to adulterate olive oil differs considerably from this. The
+melting and solidifying points of the acids in cotton seed, sesame,
+and peanut oils lie considerably higher, those of sunflower, rape, and
+castor oils decidedly lower than those of olive oil.
+
+The melting and solidifying points of these acids are as follows:
+
+  Cotton seed melts at 38.0 deg.C.  solidifies 35.0 deg.C.
+  Sesame       do.     35.0 do.    do.     32.5 do.
+  Peanut       do.     33.0 do.    do.     31.0 do.
+  Sunflower    do.     23.0 do.    do.     17.0 do.
+  Rape         do.     20.7 do.    do.     15.0 do.
+  Castor oil   do.     13.0 do.    do.      2.0 do.
+
+The above figures differ so much from those of olive oil, that
+adulteratious carried to the extent that they are in trade can easily
+be detected by the aid of an estimation of the melting point, for a
+Gallipoli olive oil, mixed with 20 per cent. of sunflower oil, melted at
+24 deg. C. and solidified at 18 deg. C. (of course, the fatty acids are meant).
+A Nizza oil, mixed with 20 per cent. cotton seed oil, melted at 311/2 deg. C.
+and solidified at 28 deg. C. A Gallipoli oil with 33-1/3 per cent. of rape
+oil melted at 231/2 deg. C. and solidified at 161/2 deg. C. When 0.50 per cent. of
+rape is added, it melts as low as 20 deg. and solidifies at 131/2 deg. C., etc.
+
+In testing the solubility of the fatty acids in alcohol and acetic acid,
+I employ the method proposed by David (in _Comptes Rendus_, 1878, p.
+1416) for estimating stearic acid.
+
+It depends upon the principle that when acetic acid is poured drop by
+drop into an alcoholic solution of oleic acid, there comes a time when
+all the oleic acid separates, but stearic acid, which is insoluble in
+a mixture of alcohol and acetic acid, remains insoluble if the mixture
+contains oleic acid.
+
+The following manipulations are adopted in testing olive oil: Equal
+parts of glacial acetic acid and water are mixed in a bottle. Then 1
+c.c. of pure oleic acid, 3 c.c. of 95 per cent. alcohol, and 2 c.c.
+of acetic acid are put in a small tube graduated in tenths of cubic
+centimeters. The solution should remain clear; on adding another
+one-tenth c.c. of acetic acid it becomes turbid, and when 1 c.c. of
+oleic acid (or at first even more) floats on the mixture of acid and
+alcohol, the liquid is ready for use. If this is not the case, the
+proportions (of acetic acid and alcohol?) must be varied until the
+addition of one-tenth c.c. of the former will cause all the oleic
+acid to separate. The proportions having been ascertained from
+these preliminary experiments, the alcohol and acid are then mixed
+accordingly, e.g., 300 of alcohol to 225 of acid. One or two grammes
+of stearic acid are added to the alcoholic acetic acid, and the clear
+supernatant liquid used for the experiments.
+
+One cubic centimeter of the oil (acids) to be tested is put in the tube,
+and 15 c.c. of alcoholic acetic acid added, well shaken, and the whole
+left to stand quietly at 15 deg. C. (60 deg. Fahr). If the olive oil is pure,
+the acids dissolve to a clear solution that remains so. Cotton seed
+oil is insoluble, and the solution obtained by heating the solution
+solidifies at 60 deg. Fahr. to a white jelly. Sesame and peanut oil react
+in a similar manner. Sunflower oil dissolves, but at 60 deg. a granular
+precipitate falls. Rape oil is entirely insoluble and floats like oil on
+the surface. Castor oil on the contrary dissolves completely, just like
+olive oil, and hence cannot be detected therein by this method. To
+detect this oil we must take the melting point of the acids along with
+the solubility of the oil itself in alcohol.
+
+Olive oil when mixed with 25 per cent. of cotton seed oil yields a
+granular precipitate, and so does 25 per cent. of sesame. Smaller
+quantities cannot be detected by these methods. For rape oil the limit
+is 50 per cent., and in smaller quantities the oil does not collect on
+the alcoholic solution. The decided lowering of the melting point of
+the fatty acids in combination with the sulphur reaction, and the
+insolubility of the oil in alcohol, also furnish a method of detecting
+when present in smaller quantities in olive oil.
+
+Although I am well aware that I am making public a research that is by
+no means free from objections, I nevertheless believe that it may be of
+use to those who have to undertake the ticklish and intricate analyses
+of commercial fats.--_Translated from the Chemiker Zeitung_, p. 355.
+
+Leipsic, Jan., 1883.
+
+       *       *       *       *       *
+
+
+
+
+ON THE THEORY OF THE FORMATION OF COMPOUND ETHERS.
+
+
+In a note presented to the Industrial Society of Mulhouse, A. Pabst
+discusses the different stages in the formation of compound ethers, as
+Williamson has explained the production of ordinary ethers by the action
+of sulphuric acid upon alcohol. Pabst has observed that the compound
+ethers are formed in an analogous manner. If alcohol, sulphuric acid,
+and acetic acid are heated together, acetic ether, we know, is formed.
+
+Pabst has shown that it takes place in three stages. In the first stage,
+ethyl sulphuric acid and water are formed; in the second, acetate of
+ethyl with the reproduction of sulphuric acid, which again converts a
+fresh quantity of alcohol into ethyl sulphuric acid.
+
+  (1) C_{2}H_{5}OH+HO,SO_{2}OH = C_{2}H_{5}O,SO_{2}OH+H_{2}O.
+      (Alcohol.) (Sulphuric acid.) (Ethyl sulphuric acid.)
+
+  (2) C_{2}H_{5}O,SO_{2}OH+C_{2}H_{3}O,OH =
+     (Ethyl sulphuric acid.) (Acetic acid.)
+
+       C_{2}H_{5}O,C_{2}H_{3}O+HO,SO_{2}HO.
+       (Acetate of ethyl.) (Sulphuric acid.)
+
+Pabst proved this by letting methyl sulphuric acid act upon a mixture of
+acetic acid and ethyl alcohol. He obtained by this process acetate
+of methyl and ethyl sulphuric acid. By the continued action of ethyl
+alcohol and acetic acid upon this mixture, of course, acetate of ethyl
+was formed. At the conclusion of the operation there was no longer any
+methyl sulphuric acid present in the liquid.
+
+In the course of his investigations, Pabst was led to a very practical
+method for preparing acetate of methyl, which consists in heating ethyl
+sulphuric acid to 135 deg. or 140 deg. C, and allowing a mixture of equal
+molecules of strong alcohol and acetic acid to flow into it.
+
+The details of his experiments and the method of purification will be
+published by the society.
+
+       *       *       *       *       *
+
+
+
+
+A GREEN OR GOLDEN COLOR FOR ALL KINDS OF BRASS.
+
+By E. PULCHER.
+
+
+The French brass castings and articles of sheet brass are made of cheap,
+light colored brass, and possess a fine golden color which is not
+produced by gold varnish, but by a coating of copper. This gives them a
+finer appearance, so that they sell better.
+
+This golden color can be easily produced at very little expense and with
+but little trouble by the following process. Fifty grammes of caustic
+soda and 40 grammes of milk sugar are dissolved in a liter of water
+and boiled for a quarter of an hour. The solution is clear as water at
+first, but acquires a dark yellow color. The vessel is next taken
+from the fire, placed on a wooden support, and 40 grammes of a cold
+concentrated solution of blue vitriol stirred in. A red precipitate of
+suboxide of copper is at once formed, and by the time the mixture cools
+to 167 deg. Fahr., the precipitate will have settled.
+
+A suitable wooden sieve is placed in the vessel, and on this the
+polished articles are laid. In about one minute the sieve is lifted up
+to see how far the operation has gone, and at the end of the second
+minute the golden color is dark enough.
+
+The sieve and articles are now taken out, and the latter are washed
+and then dried in sawdust. If the brass is left longer in the copper
+solution, in a short time a fine green luster is produced, becoming
+yellow at first and then bluish green. After it turns green, then the
+well-known iridescent colors finally appear. To obtain uniform colors
+it is necessary that they be produced slowly, which is attained at
+temperatures between 135 deg. and 170 deg. Fahr.
+
+The copper bath can be used repeatedly and can be kept a long time if
+bottled up tightly without change. After it is exhausted it can be
+renewed by adding 10 grammes of caustic soda, replacing the water that
+has evaporated, heating to boiling, and adding 25 grammes of a cold
+solution of blue vitriol.
+
+Similar operations with other well known reducing agents, such as
+tartrate of soda, glycerine, etc., do not give such good colors, because
+they do not precipitate the copper solution so rapidly and at so low a
+temperature.
+
+If the rinsed and pickled brasses are dipped for five minutes in a three
+per cent. neutral solution of cocoa nut oil soap, and then washed with
+water again before they dry, the coating gains in permanence.
+
+Brass articles that have to be cleaned frequently should be covered with
+oil of turpentine, or thin English copal varnish.--_Neueste Erfind_.
+
+       *       *       *       *       *
+
+
+
+
+VINEGAR.
+
+
+Hermann Kratzer, of Leipsic, communicates the following practical
+information on the clarification and purification of vinegar to the
+_Neueste Erfindungen und Erfahrungen_:
+
+If vinegar has an unpleasant odor, which is rarer now that the vinegar
+manufacture has reached such a state of perfection, it may be removed as
+follows: Well burned and finely pulverized wood charcoal is put into
+the bottles containing the vinegar, the proportions being 8 grammes of
+charcoal to a liter of vinegar, or one ounce to the gallon. It is shaken
+several times very thoroughly, then left standing three or four days,
+and the vinegar filtered through a linen cloth. Vinegar treated in this
+manner will be found to have completely lost its unpleasant odor.
+
+I have found that when I used blood charcoal or bone coal in place of
+wood coal it was still more efficient; but it must be mentioned that
+when they are used they must be purified as follows before using:
+Charcoal from blood contains potash and hence it is necessary to wash it
+with distilled water and dry it before using it. Bone coal (also called
+bone black, animal charcoal, etc.) contains on an average 10 per cent.
+of nitrogenous and hydrogenated carbon, 8 per cent. of carbonate of
+lime, 78 per cent. of phosphate of lime, besides phosphate of magnesia,
+sulphate of lime, soluble salts, etc. Before using, it should be treated
+with dilute hydrochloric acid until it does not effervesce any more. The
+bone coal is then left to stand for 24 or 30 hours and at the end of
+this time is washed with distilled water until the wash water no longer
+reddens a blue piece of litmus paper, i.e., until every trace of
+hydrochloric acid has been removed from the bone coal. Wood charcoal
+may be treated in like manner. When this coal is perfectly dry it is
+employed in the same proportions as the other, 8 to 1,000, the operation
+being exactly the same.
+
+He turns next to the clarification of the vinegar.
+
+It happens everywhere that vinegar instead of being clear is sometimes
+turbid. This is due to particles of yeast dissolved in the vinegar that
+have not yet settled. To remove this kind of turbidity it is customary
+to use oak or beech shavings that have been washed in hot water and then
+dried. These shavings, which must be very long and extremely thin, are
+put in a barrel with a second and perforated bottom, to a depth of 12
+to 34 inches. The vinegar that runs through them deposits its slimy
+constituents on the shavings and becomes perfectly clear, and presents
+to the eye a pleasing appearance.
+
+To this generally known method I would add a few more:
+
+1. I take a 1/2 kilo of well pulverized _animal charcoal_ (black burned
+bones) to 7/8 of a hectoliter of vinegar (1 lb. to 20 gallons), and stir
+it well with a wooden rod; or, if the vinegar is in bottles, I shake it
+a long time after putting the animal charcoal in the bottle, and repeat
+it several times. After three or four days I finally filter the vinegar
+through linen, when the filtrate will exhibit the desired clearness.
+
+2. The best way to clarify vinegar is with _isinglass_. It is first
+broken up, then swelled for a day in vinegar (17 or 18 grammes to the
+liter), then 2 liters of vinegar are added and the mass boiled until the
+isinglass is completely dissolved. Such a solution as this (1/2 ounce to
+3 quarts) is mixed with 101/4 hectoliters (250 gallons) of turbid vinegar
+and well stirred through it. After the expiration of five or six weeks
+vinegar treated in this way has a beautifully clear appearance.
+
+3. _Albumen_ can likewise be used to clarify it. The vinegar is boiled
+with the albumen until the latter is completely coagulated, and then the
+vinegar is filtered.
+
+4. And finally _milk_ may be employed. For this purpose the milk is
+skimmed, and 1 quart of milk added for every 68 quarts of vinegar,
+the mixture well stirred and shaken. After the caseous portion has
+coagulated (curdled) it is filtered as before, and in this case, too,
+the product is a fine, clear vinegar.
+
+We believe that these few experiments, so easily performed, and at so
+small an expense, will prove useful to our readers in enabling them to
+put their product in the market in an excellent condition and nicely
+clarified.
+
+       *       *       *       *       *
+
+
+
+
+THE ALIZARINE INDUSTRY.
+
+
+At a recent meeting of the Manchester section of the Society of Chemical
+Industry, Mr. Ivan Levinstein described the history and progress of the
+manufacture of alizarine, from which are produced fast red, purple,
+brown, and black dyes. He said alizarine was, until very recently, made
+only from the root of the madder plant, of which the yearly crop was
+70,000 tons, and represented an annual value of L3,150,000, of which
+the United Kingdom consumed 23,000 tons, representing a value of nearly
+L1,000,000.
+
+Madder is now no longer grown for this purpose. The German chemists
+found that alizarine produced from madder in undergoing certain
+treatment gave a substance identical with anthracine, one of the
+constituents of coal tar, and in 1869 the same chemists announced to
+the world that they had accomplished the synthesis of alizarine from
+anthracine. The effect of this discovery was to throw madder out of
+cultivation.
+
+Mr. Perkin, an English chemist, and Messrs. Graebe and Liebermann,
+German chemists, almost simultaneously applied for patents in 1869,
+in England, and as their methods were nearly identical they arranged
+priorities by the exchanging of licenses. The German license became the
+property of the Badische Aniline Company, and the English license became
+the property of the predecessors of the North British Alizarine Company.
+These patents expire in about two months, and the lecturer explained
+that an attempt made by the German manufacturers to further monopolize
+this industry (even after the expiry of the patent) proved abortive. He
+also stated that alizarine, 20 per cent. quality, is sold to-day at 2s
+6d. per lb., but that if the price were reduced by one-half there will
+still be a handsome profit to makers, and that the United Kingdom is the
+largest consumer, absorbing one-third of the entire production, and that
+England possesses advantages over all other countries for manufacturing
+alizarine--first, by having a splendid supply of the raw material,
+anthracine; secondly, cheaper caustic soda in England than in Germany by
+fully L4 per ton; thirdly, cheaper fuel; fourthly, large consumption at
+our own doors; and, fifthly, special facilities for exporting.
+
+The advantages derived from the development of the alizarine manufacture
+here, it was stated, will benefit other collateral industries, such
+as manufacture of soda, of ordinary sulphuric acid, bichromatic, and
+chlorate of potash, articles used in this manufacture. The lecturer
+considered that the difficulties attending the manufacture of alizarine
+were now overcome, and with sufficient capital and competent chemists
+English manufacturers must be successful.
+
+He then proceeded to explain the source from which nearly all the
+artificial coloring matters are derived, viz., gas tar; showing the
+principal products of this wonderful, complex mixture, of which one
+is anthracine. Alizarine manufacturers originally found scarcity of
+anthracine; at present the supply is in excess of the demand, and the
+price during the last 18 months has fallen from 3s. 6d. to 1s. per unit,
+and the probabilities are that the supply will increase. The quantity of
+gas tar now obtained the lecturer estimated at 500,000 tons per annum,
+and the coal carbonized for gas making, 10,000,000 tons. This quantity
+of tar suffices to produce 9,000 tons of 20 per cent. alizarine.
+
+The lecturer then reviewed, in case of an increased demand for
+anthracine, the probable new sources of obtaining increased supplies of
+coal tar: (1) The destructive distillation of petroleum; (2) coke
+ovens and blast furnaces; (8) the carbonization of coal for general
+manufacturing purposes, using the coal and gas as fuel, and giving tar,
+benzine, and ammonia as residues; and (4) distillation of coal with the
+object of obtaining the principal products, tar and benzine, and as the
+residual product, gas. This part of the lecture was important to dyers
+and printers, the lecturer showing also, in a very interesting way,
+in what manner manufacturers may very considerably economize their
+consumption of coal.
+
+The lecturer explained that while from one ton of coal there was
+obtained on an average about 17 oz. of benzine, by the new method about
+thirty times that amount can be got from the same quantity of coal.
+He also considered in great detail the different processes of the
+carbonization of coal, and of increasing the production of the different
+important residual products of gas tar, and also the best method of
+extracting the benzine. He showed samples of benzine which he produced
+from gas obtained at the Rochdale Road Gasworks, and, further,
+nitro-benzine, aniline, and coloring matters, which he had made from
+this gas benzine.
+
+The lecturer also discussed the effect of the probable increased
+production of tar, ammonia, benzine, etc., as affecting gas companies,
+and said it was anticipated they either would raise the price of gas or
+change the present system of manufacture, which he considered probable.
+The enormous increase in the production of ammonia, of which the larger
+portion at present, as sulphate of ammonia, was used as a fertilizer,
+would no doubt considerably reduce its value. It might even replace soda
+for many purposes, and thus react on our alizarine industry.
+
+He then proceeded to consider the manufacture of alizarine purpurine,
+and divided its manufacture into four stages: 1, the purification of
+crude anthracine; 2, the conversion of the purified anthracine into
+anthraquinone; and 3, the production of sulpho acid of anthraquinone and
+the conversion of this sulpho-acid into alizarine and purpurine. This
+part of the lecture comprised a detailed explanation of the various
+kinds of apparatus required, to be used which were beautifully got up,
+complete working models having been prepared for the occasion. The
+lecturer was of opinion that large consumers would be benefited if
+makers would offer for sale only three distinct coloring matters--iso
+or anthrapurpurine, and flavo-purpurine, leaving it to the dyers and
+printers to produce for themselves the intermediate shades by mixing the
+three colors; and he showed that by reason of the fastness of the shades
+produced by these coloring agents varying considerably, the blue shade
+(alizarine) being much faster then the orange shade (flavo-purpurine),
+consumers were in many instances losers by using mixtures of alizarine
+and flavo-purpurine.
+
+In the course of the lecture many interesting specimens of various
+products were produced and dilated upon, the lecturer fully describing
+the process of purifying the crude anthracine and of the conversion of
+the purified anthracine into anthraquinone.
+
+       *       *       *       *       *
+
+
+
+
+THE PRESERVATION OF MEAT BY CARBONIC ACID.
+
+
+Since 1874, when Professor Kolbe, of Leipsic, first published his
+results on the antiseptic action of salicylic acid, he has made many
+efforts to apply this acid to the preservation of meat, but he has
+invariably found that after the lapse of a few days an unpleasant flavor
+has been developed, which is not that of putridity. If putrid changes be
+noticed, it is a sign that salicylic acid is in insufficient quantity,
+for where it has turned putrid the meat is found to be no longer acid,
+but alkaline. This leads to the assumption that meat is protected from
+change by acids, even by gases of that kind; and in fact it was noticed
+that beef--from 2 to 5 kilos. being taken--when placed in an earthen
+vessel and loosely covered with a wooden cover, was long preserved from
+putridity if the bottom of the vessel contained some hydrochloric acid,
+nitric acid, or aqueous sulphurous acid. The meat, however, no longer
+had the taste of fresh meat, but of such as had long lain in ice.
+Experiments were therefore made with carbonic acid, and these proved
+highly successful. The meat was placed in a cylinder of metal plate, and
+suspended from a rod which crossed the upper part and the lower part.
+A small tube serves to admit a current of carbonic acid from a Kipp's
+apparatus. The lid, which rested in a circular trough of glycerine,
+was traversed by a similar tube in its center, and both tubes could be
+closed with India-rubber tubing and screw taps as soon as sufficient
+carbonic acid gas had traversed the apparatus. At the end of seven,
+fourteen, and twenty-one days it was found that the meat was still quite
+good, and the soup prepared from it was in every respect excellent. At
+the end of the fourth or fifth week the meat thus preserved in the gas
+was still quite free from all putridity; but the broth prepared from it
+no longer tasted so well as fresh bouillon. The experiments were not
+extended over a longer time. Carbonic acid is thus shown to be an
+excellent means of preserving beef from putridity and of causing it to
+retain its good taste for several weeks. Mutton does not preserve so
+well. In eight days it had become putrid; and veal is by no means so
+well preserved as beef. The comportment of beef in an atmosphere of
+carbonic acid, to which carbonic oxide has been added, is curious. A
+number of cylinders were filled in the usual way with such a mixture and
+opened at the end of two or three weeks; in each case the flesh had the
+smell and taste of good, pure meat, but it was not of the gray color
+which meat preserved in carbonic acid gas gradually takes, but appeared
+in the interior, as well as on the outside, of a bright flesh-red color,
+and on the surface here and there, there were white round masses of
+fungoid growth of the size of a 20-pfenning piece, which were removed
+with the slightest rubbing. The flesh lying just below these was found
+to have the same bright red color as that already described. Meat which
+had been for three weeks in such a gas mixture gave a broth which,
+in good taste and freshness, could hardly be distinguished from
+freshly-made bouillon; and the boiled meats could not be distinguished
+either in appearance or taste. The property of carbonic acid to preserve
+meat suggests a use for the large supplies of this gas evolved from the
+earth in many localities. And it is as interesting to determine in
+how far the gas could be of service as an antiseptic during surgical
+operations.
+
+       *       *       *       *       *
+
+
+
+
+REDUCTION OF OXIDIZED IRON BY CARBONIC OXIDE.
+
+
+IT is well known that when the heat is sufficient, carbonic oxide
+reduces the oxide of iron to metal with the production of carbon dioxide
+(carbonic acid). On the other hand, at lower temperatures carbon dioxide
+oxidizes metallic iron, forming carbonic oxide. J. Lowthian Bell's
+celebrated researches (see SCIENTIFIC AMERICAN, p. 199, March 31, 1883)
+established the point of equilibrium where in the presence of both
+monoxide and dioxide the reducing action of the one just counterbalances
+the oxidizing action of the other.
+
+At the suggestion of Prof. R. Akermann, of Stockholm, C.G. Saernstrom has
+conducted a similar series of forty-five experiments, the expense being
+borne by the Jernkontor. About 1 gramme of oxide of iron was placed in a
+porcelain boat, and slid in a porcelain tube 18 millimeters (3/4 inch) in
+diameter and 635 millimeters long (25 inches). This was exposed to the
+action of a current of mixed carbon dioxide and monoxide made by heating
+oxalic acid and concentrated sulphuric acid. It was mixed with carbon
+dioxide as required, then analyzed, and preserved in gasometers holding
+66 liters. Before using, it is passed over phosphorus and chloride of
+calcium, and through sulphuric acid. The porcelain tube and boat were
+heated to from 300 deg. to 600 deg. C. (572 deg. to 1,652 deg. Fahr.) while the gases
+were passing, and then the state of oxidation determined. It was found
+that the larger the quantity of dioxide the higher the degree of
+oxidation, and the larger the proportion of monoxide the lower the
+degree of oxidation.
+
+The details of the experiment indicate that a saving of fuel in the
+blast furnace could best be accomplished by the use of a very hot blast,
+introducing some carbon monoxide into the blast, provided, of course,
+that this gas can be made outside of the blast furnace more cheaply than
+inside of it. Nevertheless, 643 lb. of carbon must be burned to
+every 1,000 lb. of iron reduced, if carbonic oxide is exclusively
+employed.--_Stahl und Eisen_.
+
+       *       *       *       *       *
+
+
+
+
+ON THE ADULTERATION OF SOAP.
+
+By Dr. H. BRACKEBUSCH.
+
+
+The importance of soap as an indispensable article in the household has
+not restrained the adulterators from making it a favorite object of
+their operations, and at the present day soap is only very rarely what
+it should be, the alkaline salt of a fatty acid with about 15 per cent.
+of water, which may be increased in case of soft soaps to 30 per cent.
+at most. The amount of moisture is an immediate signal for adulteration.
+Of all substances that can be used to adulterate soap, water is of
+course the cheapest, and as it is also harmless, this was the first
+point where manufacturers made use of their knowledge. The percentage of
+water was raised to 26 or 28 per cent., and now nearly all the ordinary
+soaps contain that amount when they leave the factory. At first the
+retailers objected to this method, because they had to suffer the loss
+so far as it dried out and lost weight in the store.
+
+The next point was to find some substance that would prevent this rapid
+drying, and it was very soon discovered that those soaps that contained
+an excess of lye retained moisture longer. Henceforth it was only
+necessary to use lyes of extra strength so as to obtain a large yield of
+soap containing an excess of water. The results of this ingenious method
+are before us; in the shops of the soap dealers the bars of soap become
+coated with a crust of white crystals, which is nothing but soda. If a
+few drops of corrosive sublimate be dropped on these crystals, a red
+spot will at once be produced by the formation of mercuric oxide. In
+addition to the deception of the public who buy such soaps, this alkali
+destroys clothes washed with it, as the fiber of the tissues is directly
+attacked by it, while the proper action of the soap depends on its
+enveloping the particles of dirt and carrying them off.
+
+Soap is subject to another kind of adulteration called filling, or
+weighting. Soapstone and similar mineral substances are added to the
+finished soap to increase its weight. But it may be added that this
+fraudulent weighting is rare. Large establishments cannot take the risk
+of being detected in such avaricious practices, and small ones scarcely
+have the apparatus at their disposal for making a uniform mixture which
+will not arouse suspicion.
+
+Now soaps are frequently found in the market that scarcely deserve this
+name. Mineral soap, cold water soap, etc., are the names inscribed on
+the placards behind which is buried a preparation consisting for the
+greater part of water-glass. The well-known water-glass is a silicate of
+soda or potash dissolved in free or caustic soda, or potash. There was
+a time when it excited great hopes, and its introduction into the
+household for washing was dreamed of, but it was soon found that
+its caustic properties made their appearance at a relatively low
+temperature. Hence we often find the notice, "TO BE USED COLD," printed
+in bold letters on the wrappers. This product is obtained by thickening
+water-glass with stearine, oleine, or any other easily saponifiable fat.
+As it takes but very little of the substances named to make an article
+closely resembling soap, of course the product is very cheap. There does
+not seem to be any limit to the amount of water in it; at least the
+author found in one kind of mineral soap from Berlin 58 per cent. of
+water. Water-glass soaps do not dissolve readily in water, they make but
+little suds, and render the skin hard and unpliable. Admitting that they
+are suitable for many purposes, nothing can be said against their sale
+so long as they appear under names which preclude their being confounded
+with other soaps. Nevertheless, there is always this danger--that
+water-glass may come into general use in making soap, and this is to be
+deplored. Water-glass soaps are easily recognized by their insolubility
+in moderately strong alcohol, the water-glass remaining behind in a
+gelatinous form.
+
+Great deception has been practiced under such names as "almond soap,"
+etc. Fortunately the difference between various kinds of fat are not
+very great from a chemical point of view, although it is always an
+unpleasant thought that the fat from animals that have died may return
+to the house in the form of soap. A white or yellow soap having a good
+smell is not made from bad fat, and hence is more appetizing.
+
+A method formerly much in use consisted in mixing green soap with starch
+paste, a mixture that could not be detected by the naked eye, especially
+if colored with caramel. On attempting to dissolve it in ordinary
+burning alcohol, a white coagulum forms.
+
+From the foregoing it is sufficiently evident that those who buy soap
+to sell again have every reason to keep a sharp lookout on those who
+furnish them with soap.--_Polyt. Notiz._
+
+       *       *       *       *       *
+
+
+
+
+BOVINE AND HUMAN MILK: THE DIFFERENCE IN ITS ACTION AND COMPOSITION.
+
+By C. HUSSON.
+
+
+M. Meynet, in a remarkable report upon condensed milk, has raised a
+question which it is important to have solved in the interests of
+infants. This is my excuse for presenting to the French Society of
+Hygiene certain observations on this subject.
+
+Is woman's milk richer in fatty matters and sugar in proportion to the
+caseine than that of the cow? Is the affirmative, sustained by a large
+number of chemists, a mistake that ought to be corrected?
+
+Such is the question that needs to be answered.
+
+In my last work on milk, my aim was to report new experiments, and hence
+I gave only the analysis of M. Colawell. By the side of the essays of
+MM. Doyere, Millon, Commaille, and Wurtz, I put those of Liebig, and
+quoted an interesting chapter written on this question by M. Caulier,
+in Dechambre's Encyclopedic Dictionary. These are the authorities upon
+which to base any opposition to the analyses of Boussingault, Regnault,
+Littre, and Simon, savants of no less renown.
+
+The differences are easily explained.
+
+Woman's milk is rarely to be had in sufficient abundance to make a
+complete analysis of it. In the country especially a few precious drops,
+obtained with difficulty, are carried off in a thimble to be placed
+under a microscope, where the number of fat globules are counted, and it
+is examined to see if they are not mixed with globules of colostrum.
+
+It will be necessary at the outset to know whether the analyses given
+refer to milk drawn from the breast before nursing, or at the end. In
+the former case there will be an excess of caseine, in the second an
+excess of fat present. This is the reason that in nursing infants the
+intervals should not be too long, or the child will not be able to empty
+the breast completely, and it will obtain a milk too rich in caseine,
+too poor in butter, and one that it cannot digest.
+
+This is the first proof of the importance of fatty matters for the
+alimentation of babes.
+
+Let us turn to the second.
+
+At birth, when the milk is still in a state of colostrum, the fluid
+contains a variable quantity of albumen coagulable by heat, much less
+caseine, and an excess of butter and sugar.
+
+Cow's milk, immediately after calving, contains more butter and less
+caseine than milk produced some time later, when the specific character
+of ruminants begins to appear in the calf, that is to say, when it
+commences to graze the milk coagulates in the stomach. As in other
+mammals, an excess of fat helps digestion by subdividing the caseine and
+emulsifying it. But the milk of an animal recently calved is reserved
+for its young, and it is not until the time of weaning that the lacteal
+fluid is offered for human consumption.
+
+Thus it is that the nursling of a day receives milk many months old and
+heavily loaded with caseine. This milk it cannot digest because the
+emulsifying element, the fat, is not present in it in sufficient
+quantity in proportion to the coagulable matter. We must not forget
+either that the difference in coagulation holds also with respect to
+difference in the age and in the kind of animal. Just so the rennet of a
+sucking calf has a greater power of coagulating cow's milk than that of
+a sheep, and _vice versa_.
+
+"Clinical observation," says Dr. Condereau, "shows that all young
+infants digest human milk very easily and cow's milk very imperfectly.
+When it is fed on the latter, in the excreta will be found numerous
+fragments, sometimes very bulky, of undigested caseine. In most cases
+this caseine suffers more or less decomposition in the alimentary
+canal, which gives to the feces a tainted odor recalling that of putrid
+Roquefort cheese.
+
+"The excrement vary in appearance as much as they do in odor. Frequently
+the caseous clots are not to be seen, and the stool has a clammy look
+reminding one of glazier's putty, while the color varies from dirty
+white to pale grayish yellow. That is due to the fact that the
+composition of the milk from different animals is far from being
+constant.
+
+"The proportions of albumen to those of caseine are especially varied.
+For woman's milk the proportions are as 100 to 122.72. In goat's milk
+the proportions are 100 to 173.09. In cow's milk it is as 100 to 289.20.
+
+"The conclusion is this: Caseine is not a food at all for the new born
+during a space of time, the duration of which is to be determined
+experimentally.
+
+"This substance is a harmful burden that interferes with the regular
+action of the digestive organs. It is a premature food, and the more
+abundant the more injurious.
+
+"Albumen on the contrary remains fluid in the presence of the gastric
+juice; it is separated from the other aliments by coagulation of the
+caseine. It is absorbed entire either in its natural state or in form of
+peptone."
+
+According to clinical observation, it is still the fats that give to
+milk its hygienic value, and the excess of caseine is an obstacle to its
+digestion.
+
+However, if cow's milk is not easily digested by children, experience
+proves that there are other kinds of milk, from other animals, which
+young stomachs are able to bear more easily. There are many proofs of
+this fact.
+
+M. Tarnier, speaking before the Academy of Medicine on the artificial
+nourishment of the new born, reports that the milk of cows and goats,
+pure or diluted in different ways, that of condensed milk and Biedert's
+cream, have always given disastrous results at the Maternite in Paris,
+but that the mortality of the new born was considerably reduced from the
+day when ass's milk was introduced as food.
+
+Ass's milk was given pure for six weeks or two months; then cow's milk
+diluted with one-half water until six months old, followed by pure cow's
+milk. This is the most rational course of artificial feeding.
+
+Prof. Parrot reports analogous results obtained at the nursery opened at
+the Hospice des Enfants Assistes. By the aid of ass's milk he saved a
+number of the little syphilitics.
+
+The following are the numerical results: 86 infants with hereditary
+taint of syphilis have been at the nursery. Of 6 fed exclusively on
+cow's milk, only 1 survived and the other 5 died. Forty-two were suckled
+by goats, of which 8 lived, 34 are dead, which is equal to a mortality
+of 80.9 per cent. Thirty-eight were suckled by an ass, of which 28 lived
+and 10 died; a mortality of 26.3 per cent.
+
+Certainly these figures prove eloquently enough what chemical analysis
+shows, that ass's milk, being better borne by the infant's stomach,
+ought to have a composition resembling that of woman's milk. This
+analogy is not found to consist in the quantity of fat, but in the small
+amounts of dry residue (total solids) and of caseine.
+
+Let us now examine the objections raised by M. Meynet.
+
+Food has a considerable influence upon the composition of milk; this
+fact, stated by M. Riche in his treatise on chemistry, seem to be
+accepted by all.
+
+The milk of carnivorae is excessively rich in caseine; that of herbivorae
+much less.
+
+The food of woman, who enjoys a mixed alimentation, ought to have a
+composition intermediate between these two, and consequently ought to
+contain more caseine than that of the plant eaters. This is the logical
+deduction.
+
+At first this reasoning misleads one, but numerous objections present
+themselves.
+
+The food, no doubt, has some influence upon the composition of the milk
+of animals of the same species, but every animal can secrete something
+independent of any food, just as one kind secretes musk, another
+castor, etc. Yet it would not be an anomaly if an excess of caseine
+in proportion to the other substances was a true characteristic of
+ruminants.
+
+But we admit that the milk of all mammals ought to have identically the
+same composition if their food suffered no modifications.
+
+What is the food of ruminants? Without doubt it is essentially
+vegetable, and the plants of the field constitute the element par
+excellence of their nurture. These plants contain a large excess of
+carbohydrates in proportion to the nitrogenous.
+
+But what are these other substances? What role do they play in
+digestion?
+
+They are composed in great part of fibers and cells that suffer no
+change in the animal economy, and which are not acted upon by the
+gastric juice, as proved by their occurrence in excreta. The carbon is
+found almost unchanged, so that the excrements of herbivoiae, when dried,
+form a valuable fuel. Ruminants are compelled, in order to obtain
+nourishment from the plants that they eat, to extract their juices by
+repeated pressure (as in chewing the cud); and what do these soluble
+juices contain? Some saccharine substances, a little fat, but mostly
+albumen and vegetable caseine, that is to say, the substance which
+predominates in their lacteal secretions.
+
+What, on the contrary, is the food of woman?
+
+No doubt she gains much strength from the lean, muscular flesh that she
+eats, but besides this she has butter, oil, fats of all kinds, sugar,
+starches, and alcoholic beverages, all of which are favorable to the
+production of butter in the milk. Hence, aside from her physical
+constitution, the food of woman alone explains the relative excess of
+non-nitrogeneous substances.
+
+Nitrogenous articles of food are expensive, while the other forms of
+nutriment are to be had in the form of potatoes, beans, and bread,
+products sold at a reasonable price. Yet logic demands that there shall
+be an excess of butter in proportion to caseine in the milk.
+
+The discrepancies in analyses of woman's milk are easily explained by
+the mobile and impressible character of woman.
+
+If bad treatment and bee stings are able to modify the composition of
+cow's milk, how much more ought the emotions of all sorts, which disturb
+the heart and head of woman, to change the composition of her milk?
+
+But if new analyses seem to be needed, they ought to be made. This
+question is too important to rest in suspense. The mean composition
+of human milk for the first two months after delivery ought to be
+established. In chemistry, as in mathematics, figures alone are
+convincing. But from what has been said it is logical to conclude that
+an excess of caseine in milk is unfavorable to good digestion, while
+an excess of butter is favorable to it.--_Translated from Journal
+d'Hygiene, March 1, 1883_.
+
+       *       *       *       *       *
+
+
+
+
+CEREAL FOODS IN THEIR RELATION TO HEALTH AND DISEASE.
+
+By F.R. CAMPBELL, A.B., M.D.
+
+
+The cereals are subject to many diseases which retard their development,
+rendering them unfit for food, and even poisonous. The relation of
+unwholesome foods to the diseases of the animal body are now being
+thoroughly studied, recent advances in chemistry and microscopy
+contributing valuable aid to the prosecution of such investigations.
+Some enthusiastic advocates of the germ theory of disease believe that
+many, if not all, the so-called disease germs may be transplanted into
+the human system with the food ingested. But whatever may be the real
+truth in regard to this subject, it has been positively demonstrated
+that many diseases of the human body may be produced by unwholesome
+food. The specific symptoms produced in man by the various grain
+diseases are not accurately known, consequently our remarks upon this
+subject must be of a very general character.
+
+Pappenheim divides the diseases of the cereals into two classes,
+internal and external. The internal diseases are those depending upon
+conditions of soil, climate, cultivation, etc., and may be neglected in
+our discussion, as they produce no special disease of the body, only
+impairing the nutritive value of the grain.
+
+The external diseases are of much greater importance, as they probably
+produce some of the most fatal maladies to which the human race is
+subject. These external diseases of the cereals are due to parasites,
+which may be either of an animal or vegetable nature. Among the animal
+parasites may be mentioned the _weevil, vibrio tritici_, which feeds
+upon the starch cells of the grain. Grain attacked by this parasite was
+at one time supposed to be injurious to health.
+
+In 1844 the French Commission appointed to examine grain condemned a
+large quantity imported with this parasite, but afterward reconsidered
+their decision and permitted its sale, concluding that it was deficient
+in nutritive properties, but not otherwise unwholesome. Rust is the most
+common disease of the cereals, produced by vegetable parasites. Like
+the other diseases of this class, it is most prevalent in warm, damp
+seasons.
+
+Prof. Hensboro is of the opinion that rust is but an earlier stage of
+mildew or blight, the one form of parasite being capable of development
+into the other, and the fructification characteristic of the two
+supposed genera having been evolved on one and the same individual.
+
+Blight is a term loosely applied to a number of parasitic diseases.
+In it are included mildew, cories, and even rust and smut. The fungi
+producing these diseases attack the plant and seed at various stages of
+its growth. The whole kernel is affected, and not merely the external
+coat, as is sometimes maintained. When blighted grain is sown, the
+disease recurs the following year, often making it necessary to import
+new seed before the disease can be eradicated. Various remedies have
+been used to destroy the spores of these fungi, but all are uncertain
+and some are dangerous to health. Special machinery and methods have
+been employed in the mills to separate the mildew from the grain. Some
+of these succeed in removing the fungi and discoloration from the
+surface of the grain, but have no effects upon the parts within.
+Blighted grain is soft, and has an unpleasant taste and smell, and bread
+made of it is liable to be heavy and sodden.
+
+It is undeniable that the use of blighted grain as food is exceeding
+dangerous to health. It is a well known fact that vegetable parasites
+may attack animals; the silk worm disease produced by the _Botrytis
+baniana_, being an example. It is stated that the same vegetable
+parasites which produce plant diseases, when transmitted to the animal
+body produce special affections, the form and appearance of the germs
+being altered by their environments. The same germs developed under
+different conditions of temperature and surrounding medium, assume forms
+so various that they have been supposed to belong to different species
+and even different genera. If there is any truth, then, in the germ
+theory of disease, it is not so very improbable that a fungus which
+will produce blight in grain may cause cholera or tetanoid fever in an
+animal.
+
+Hallier, the famous physiological botanist, observed in 1867 that there
+was a peculiar disease of the rice plant associated with an epidemic of
+cholera. Rice plants fertilized with the discharges of cholera patients
+were affected with blight. A concentrated infusion of the blighted grain
+would produce changes in all animal substances, blood and albumen being
+converted into thin odorless products resembling in every respect the
+material found in the kidneys of cholera patients.
+
+The most formidable of the diseases attributed to the use of diseased
+grain is cerebro-spinal meningitis, commonly known as spotted or blanoid
+fever. The disease is rare in England, but is frequently epidemic in the
+United States, in Ireland, and on the Continent. In 1873, in the State
+of Massachusetts alone, 747 persons died of it, and other epidemics even
+more fatal have lately occurred in New York and Michigan. The disease is
+a nervous fever attended with convulsions, the pathological lesion being
+congestion and inflammation of the membrane of the spinal cord and
+brain. Dr. Richardson in writing on the nature and causes of spotted
+fever concludes that it is due to the use of diseased vegetable
+substances, especially grain, and from a careful analysis of the
+statistics of this disease reported by the Michigan State Board of
+Health considers it demonstrated that "under favoring condition for its
+action diseased grain received as a food is the primary cause of the
+phenomena which characterize the disease." These views are substantiated
+by the experiments of Dr. H. Day, who found that by feeding rabbits on
+unsound grain, spasmodic affections were produced, due to inflammation
+of the membranes of the spinal cord and brain.
+
+In warm climates, pellagra or Italian leprosy is said to be produced by
+eating diseased maize, which forms the principal article of food among
+the poorer classes of the rural districts. Pellagra is epidemic in
+northern Italy and the south of France. The disease is manifested by a
+redness and discoloration of the exposed parts of the body. It is most
+active during the hot weather, the inflammation subsiding in the winter,
+leaving a pigmentation of the skin. Each year the symptoms become more
+alarming, nervous disorders finally setting in, and a large number die
+insane. The disease is most prevalent in the country. In the towns,
+where maize is supplemented by other articles of food, it does not
+exist.
+
+Ergot is a very common disease of the cereals. The fungus producing it
+was discovered in 1853, but for centuries previous its injurious effects
+upon the human body were recognized, and it was observed that ergot of
+rye was the most poisonous. Taken in large doses, ergot will produce
+nausea, vomiting, diarrhoea, headache, and weakness of the heart. In
+small repeated doses it will produce contraction of all the unstriped
+muscles, as those of the blood vessels, the womb, and intestines.
+Ergotium is the name given to the disease produced by the continued use
+of grain affected by this fungus. Aitken describes it as "a train of
+morbid symptoms produced by the slow and cumulative action of a specific
+poison peculiar to wheat and rye, which produces convulsions, gangrene
+of the extremities, and death. In countries where rye bread is much used
+ergotium is sometimes epidemic. This was a frequent calamity before
+the introduction of suitable purifiers into the mills. There are two
+varieties of the disease, the convulsive and the gangrenous. The
+convulsive form begins with tingling of the extremities, drowsiness, and
+headache, followed by pain in the joints, violent muscular contractions,
+and death. The gangrenous variety begins with coldness and weakness
+of the extremities followed by gangrene and sloughing. This form is
+somewhat more fatal than the convulsive, the mortality of those affected
+being about 90 per cent.
+
+Mouldy grain and bread have also caused poisoning. Prof. Varnell states
+that "six horses died in three days from eating mouldy oats. There was a
+large amount of matted mycelium, and this when given to other horses for
+experiment, killed them within thirty-six hours." The writer has himself
+seen seven hogs die within a few days while being fed on mouldy corn.
+Flour which has become stale may produce similar injurious effects,
+although most of the germs are destroyed in the process of baking. It is
+quite probable, however, that a poisonous substance is generated by the
+mould fungus, which cannot be destroyed in this way.--_Milling World_.
+
+       *       *       *       *       *
+
+
+
+
+MOIST AIR IN LIVING ROOMS.
+
+
+The injurious effect of dry heat in inhabited rooms is quite generally
+known, and different methods have been suggested for moistening the
+air. To test the effectiveness of these methods, J. Melikow, of St.
+Petersburg, has estimated the quantity of moisture in the air of
+different rooms by means of August's psychrometer, and also tested
+the different methods of increasing the moisture. He arrived at the
+following results, which are of decided practical value:
+
+1. When large and small open vessels filled with water are placed in the
+room, they do not increase the moisture of the air at all.
+
+2. Tubs of water of the same temperature as the room and parlor
+fountains have very little effect.
+
+3. When hot air is used, open vessels of water placed over the pipes
+have no effect at all.
+
+4. Wolpert's revolving wheel increases the moisture but slightly.
+
+5. The Russian tea machine and the steam pulverizer (atomizer) are
+effective but only for a short time.
+
+6. Wet hand towels suspended in a room are insufficient.
+
+7. Of all the methods tested, the most efficient seemed to be to hang up
+a number of wet cloths on a winch or some contrivance that permits
+of turning them, so as to hasten their giving out moisture to the
+air.--_Med. Zeitung_.
+
+       *       *       *       *       *
+
+[The following article is from the June number of the _American
+Naturalist_, edited by Prof. A. S. Packard, Jr., and Prof. E. D. Cope.
+Published by McCalla & Stavely, Philadelphia, Pa.]
+
+
+
+
+THE DEVELOPMENTAL SIGNIFICANCE OF HUMAN PHYSIOGNOMY.
+
+[Footnote: Abstract of a lecture delivered before the Franklin Institute
+of Philadelphia, Jan. 20.1881, in exposition of principles laid down in
+The Hypothesis of Evolution, New Haven, 1870, p. 31.]
+
+By E. D. COPE.
+
+
+The ability to read character in the form of the human face and figure
+is a gift possessed by comparatively few persons, although most
+people interpret, more or less correctly, the salient points of human
+expression. The transient appearances of the face reveal temporary
+phases of feeling which are common to all men; but the constant
+qualities of the mind should be expressed, if at all, in the permanent
+forms of the executive instrument of the mind, the body. To detect the
+peculiarities of the mind by external marks has been the aim of the
+physiognomist of all times; but it is only in the light of modern
+evolutionary science that much progress in this direction can be made.
+The mind, as a function of part of the body, partakes of its perfections
+and its defects, and exhibits parallel types of development. Every
+peculiarity of the body has probably some corresponding significance in
+the mind; and the causes of the former are the remoter causes of the
+latter. Hence, before a true physiognomy can be attempted, the origin
+of the features of the face and general form must be known. Not that
+a perfect physiognomy will ever be possible. A mental constitution so
+complex as that of man cannot be expected to exhibit more than its
+leading features in the body; but these include, after all, most of what
+it is important for us to be able to read, from a practical point of
+view.
+
+[Illustration: FIG. 1.--Section of skull of adult orang-outang _(Simia
+satyrus)_. FIG. 2.--Section of skull of young orang, showing relatively
+shorter jaws and more prominent cerebral region.]
+
+The present essay will consider the probable origin of the structural
+points which constitute the permanent expression. These may be divided
+into three heads, viz.:
+
+1. Those of the general form or figure.
+
+2. Those of the surface or integument of the body, with its appendages.
+
+3. Those of the forms of the head and face.
+
+[Illustration: FIG. 3.--Figure of infant at birth; _a_, front of face.
+(The eye is too far posterior in this figure.)]
+
+The principal points to be considered under each of these heads are the
+following:
+
+
+I. THE GENERAL FORM.
+
+1. The size of the head.
+
+2. The squareness or slope of the shoulders.
+
+3. The length of the arms.
+
+4. The constriction of the waist.
+
+5. The width of the hips.
+
+6. The length of the leg, principally of the thigh.
+
+7. The sizes of the hands and feet.
+
+8. The relative sizes of the muscles.
+
+[Illustration: FIG. 4.--Portrait of a girl at five years of age.]
+
+
+II. THE SURFACES.
+
+9. The structure of the hair (whether curled or not).
+
+10. The length and position of the hair.
+
+11. The size and shape of the nails.
+
+12. The smoothness of the skin.
+
+13. The color of the skin, hair, and irides.
+
+[Illustration: FIG. 5.--Portrait of the same at seventeen years, showing
+the elongation of the facial region, and less protuberance of the
+cerebral.]
+
+
+III. THE HEAD AND FACE.
+
+14. The relative size of the cerebral to the facial regions.
+
+15. The prominence of the forehead.
+
+16. The prominence of the superciliary (eyebrow) ridges.
+
+17. The prominence of the alveolar borders (jaws).
+
+18. The prominence and width of the chin.
+
+19. The relation of length to width of skull.
+
+20. The prominence of the malar (cheek) bones.
+
+21. The form of the nose.
+
+22. The relative size of the orbits and eyes.
+
+23. The size of the mouth and lips.
+
+[Illustration: FIG. 6.--Profile of a Luchatze negro woman, showing
+deficient bridge of nose and chin, and elongate facial region and
+prognathism.]
+
+The significance of these, as of the more important structural
+characters of man and the lower animals, must be considered from two
+standpoints, the paleontological and the embryological. The immediate
+paleontological history of man is unknown, but may be easily inferred
+from the characteristics displayed by his nearest relatives of the order
+Quadrumana. If we compare these animals with man, we find the following
+general differences. The numbers correspond to those of the list above
+given:
+
+I. _As to General Form_.--(3) In the apes the arms are longer; (8) the
+extensor muscles of the leg are smaller.
+
+II. _As to Surface_.--(9) The body is covered with hair which is not
+crisp or woolly; (10) the hair of the head is short; (18) the color of
+the skin, etc., is dark.
+
+III. _As to Head and Face_.--(14) The facial region of the skull is
+large as compared with the cerebral; (15) the forehead is not prominent,
+and is generally retreating; (16) the superciliary ridges are more
+prominent; (17) the edges of the jaws are more prominent; (18) the chin
+is less prominent; (20) the cheek bones are more prominent; (21) the
+nose is without bridge, and with short and flat cartilages; (22) the
+orbits and eyes are smaller (except in Nyctipithecus); (24) the mouth is
+small and the lips are thin.
+
+[Illustration: FIG. 7.--Face of another negro, showing flat nose, less
+prognathism and larger cerebral region. From Serpa Pinto.]
+
+It is evident that the possession of any one of the above
+characteristics by a man approximates him more to the monkeys, so far
+as it goes. He retains features which have been obliterated in other
+persons in the process of evolution.
+
+[Illustration: FIG.8.--Portrait of Satanta, a late chief of the Kiowas
+(from the Red river of Texas), from a photograph. The predominance of
+the facial region, and especially of the malar bones, and the absence of
+beard, are noteworthy.]
+
+In considering the physiognomy of man from an embryological standpoint,
+we must consider the peculiarities of the infant at birth. The numbers
+of the following list correspond with those already used (Fig. 3).
+
+I. _As to the General Form_.--(1) The head of the infant is relatively
+much larger than in the adult; (3) the arms are relatively longer;
+(4) there is no waist; (6) the leg, and especially the thigh, is much
+shorter.
+
+II. _As to the Surfaces_.--(10) The body is covered with fine hair, and
+that of the head is short.
+
+III. _The Head and Face_.--(14) The cerebral part of the skull greatly
+predominates over the facial; (16) the superciliary ridges are not
+developed; (17) the alveolar borders are not prominent; (20) the malar
+bones are not prominent; (21) the nose is without bridge and the
+cartilages are flat and generally short; (22) the eyes are larger.
+
+[Illustration: FIG. 9.--Australian native (from Brough Smyth), showing
+small development of muscles of legs and prognathism.]
+
+It is evident that persons who present any of the characters cited in
+the above list are more infantile or embryonic in those respects than
+are others; and that those who lack them have left them behind in
+reaching maturity.
+
+We have now two sets of characters in which men may differ from each
+other. In the one set the characters are those of monkeys, in the other
+they are those of infants. Let us see whether there be any identities in
+the two lists, i. e., whether there be any of the monkey-like characters
+which are also infantile. We find the following to be such:
+
+I. _As to General Form_.--(3) The arms are longer.
+
+II. _Surface_.--(10) The hair of the head is short, and the hair on the
+body is more distributed.
+
+III. _As to Head and Face_.--(21) The nose is without bridge and the
+cartilages are short and flat.
+
+Three characters only out of twenty-three. On the other hand, the
+following characters of monkey-like significance are the opposites of
+those included in the embryonic list: (14) The facial region of the
+skull is large as compared with the cerebral; (15) the forehead is not
+prominent; (16) the superciliary ridges are more prominent; (17) the
+edges of the jaws are more prominent. Four characters, all of the face
+and head. It is thus evident that in attaining maturity man resembles
+more and more the apes in some important parts of his facial expression.
+
+[Illustration: Esequibo Indian woman, showing the following
+peculiarities: deficient bridge of nose, prognathism, no waist, and
+(the right hand figure) deficiency of stature through short femur. From
+photographs by Endlich.]
+
+It must be noted here that the difference between the young and
+embryonic monkeys and the adults is quite the same as those just
+mentioned as distinguishing the young from the adult of man (Figs. 1 and
+2). The change, however, in the case of the monkeys is greater than
+in the case of man. That is, in the monkeys the jaws and superciliary
+ridges become still more prominent than in man. As these characters
+result from a fuller course of growth from the infant, it is evident
+that in these respects the apes are more fully developed than man.
+Man stops short in the development of the face, and is in so far more
+embryonic.[1] The prominent forehead and reduced jaws of man are
+characters of "retardation." The characters of the prominent nose with
+its elevated bridge, is a result of "acceleration," since it is a
+superaddition to the quadrumanous type from both the standpoints of
+paleontology and embryology.[2] The development of the bridge of the
+nose is no doubt directly connected with the development of the front of
+the cerebral part of the skull and ethmoid bone, which sooner or later
+carries the nasal bones with it.
+
+[Footnote 1: This fact has been well stated by C. S. Minot in the
+_Naturalist_ for 1882, p. 511.]
+
+[Footnote 2: See Cope, The Hypothesis of Evolution, New Haven, 1870, p.
+31.]
+
+[Illustration: The Venus of the Capitol (Rome). The form and face
+present the characteristic peculiarities of the female of the
+Indo-European race.]
+
+If we now examine the leading characters of the physiognomy of three
+of the principal human sub-species, the Negro, the Mongolian, and the
+Indo-European, we can readily observe that it is in the two first named
+that there is a predominance of the quadrumanous features which are
+retarded in man; and that the embryonic characters which predominate are
+those in which man is accelerated. In race description the prominence
+of the edges of the jaws is called prognathism, and its absence
+orthognathism. The significance of the two lower race characters as
+compared with those of the Indo-European is as follows:
+
+_Negro_.--Hair crisp (a special character), short (quadrum. accel.);
+prognathous (quadrum. accel.); nose flat, without bridge (quadrum.
+retard)[1]; malar bones prominent (quadrum. accel.); beard short
+(quadrum. retard.); arms longer (quadrum. accel.); extensor muscles of
+legs small (quadrum. retard.).
+
+[Footnote 1: In the Bochimans, the flat nasal bones are co-ossified with
+the adjacent elements as in the apes (Thulie).]
+
+_Mongolian_.--Hair straight, long (accel.); jaws prognathous (quadrum.
+accel.); nose flat or prominent with or without bridge; malar bones
+prominent (quadrum. accel.); beard none (embryonic); arms shorter
+(retard.); extensor muscles of leg smaller (quad. retard.).
+
+_Indo-European_.--Hair long (accel.); jaws orthognathous (embryonic
+retard.); nose (generally) prominent with bridge (accel.); malar bones
+reduced (retard.); beard long (accel.); arms shorter (retard.); extensor
+muscles of the leg large (accel.).
+
+The Indo-European race is then the highest by virtue of the acceleration
+of growth in the development of the muscles by which the body is
+maintained in the erect position (extensors of the leg), and in those
+important elements of beauty, a well-developed nose and beard. It is
+also superior in these points in which it is more embryonic than the
+other races, viz., the want of prominence of the jaws and cheekbones,
+since these are associated with a greater predominance of the cerebral
+part of the skull, increased size of cerebral hemispheres, and greater
+intellectual power.
+
+A comparison between the two sexes of the Indo-Europeans expresses their
+physical and mental relations in a definite way. I select the sexes of
+the most civilized races, since it is in these, according to Broca and
+Topinard, that the sex characters are most pronounced. They may be
+contrasted as follows. The numbers are those of the list already used.
+I first consider those which are used in the tables of embryonic,
+quadrumanous, and race characters:
+
+           MALE.                       FEMALE.
+               I. _The General Form_.
+   2. Shoulders square.          Shoulders slope.
+   4. Waist less constricted.    Waist more constricted.
+   5. Hips narrower.             Hips wider.
+   6. Legs longer.               Legs shorter (very frequently).
+   8. Muscles larger.            Muscles smaller.
+
+               II. _The Integuments, etc_.
+  10. More hair on body, that    Less hair on body, that of head
+      of head shorter; beard.    longer; no beard.
+  12. Skin rougher (generally).  Skin smoother.
+
+               III. _The Head and Face_.
+  16. Superciliary ridges more   Superciliary ridges low.
+      prominent.
+  22. Eyes often smaller.        Eyes often larger.
+
+[Illustration: The Wrestler; original in the Vatican. This figure
+displays the characters of the male Indo-European, except the beard.]
+
+The characters in which the male is the most like the infant are two,
+viz., the narrow hips and short hair. Those in which the female is most
+embryonic are five, viz., the shorter legs, smaller muscles, absence of
+beard, low superciliary ridges, and frequently larger eyes. To these may
+be added two others not mentioned in the above lists; these are 1, the
+high pitched voice, which never falls an octave, as does that of the
+male; and 2, the structure of the generative organs, which in all
+mammalia more nearly resemble the embryo and the lower vertebrata in the
+female than in the male. Nevertheless, as Bischoff has pointed out, one
+of the most important distinctions between man and the apes is to be
+found in the external reproductive organs of the female.
+
+From the preceding rapid sketch the reader will be able to explain the
+meaning of most of the peculiarities of face and form which he will
+meet with. Many persons possess at least one quadrumanous or embryonic
+character. The strongly convex upper lip frequently seen among the lower
+classes of the Irish is a modified quadrumanous character. Many people,
+especially those of the Sclavic races, have more or less embryonic
+noses. A retreating chin is a marked monkey character. Shortness
+of stature is mostly due to shortness of the femur, or thigh; the
+inequalities of people sitting are much less than those of people
+standing. A short femur is embryonic; so is a very large head. The faces
+of some people are always partially embryonic, in having a short face
+and light lower jaw. Such faces are still more embryonic when the
+forehead and eyes are protuberant. Retardation of this kind is
+frequently seen in children, and less frequently in women. The length of
+the arms would appear to have grown less in comparatively recent times.
+Thus the humerus in most of the Greek statues, including the Apollo
+Belvidere, is longer than those of modern Europeans, according to a
+writer in the Bulletin de la Societe d'Anthropologie of Paris, and
+resembles more nearly that of the modern Nubians than any other people.
+This is a quadrumanous approximation. The miserably developed calves of
+many of the savages of Australia, Africa, and America are well known.
+The fine, swelling gastroenemius and soleus muscles characterize the
+highest races, and are most remote from the slender shanks of the
+monkeys. The gluteus muscles developed in the lower races as well as
+in the higher distinguish them well from the monkeys with their flat
+posterior outline.
+
+It must be borne in mind that the quadrumanous indications are found in
+the lower classes of the most developed races. The status of a race or
+family is determined by the percentage of its individuals who do and do
+not present the features in question. Some embryonic characters may
+also appear in individuals of any race, as a consequence of special
+circumstances. Such are, however, as important to the physiognomist as
+the more normal variations.
+
+Some of these features have a purely physical significance, but the
+majority of them are, as already remarked, intimately connected with
+the development of the mind, either as a cause or as a necessary
+coincidence. I will examine these relations in a future article.
+
+       *       *       *       *       *
+
+
+
+
+THE PRODUCTION OF FIRE.
+
+
+In 1867 the Abbe Bourgeois found at Thenay, near Pont-levoy
+(Loir-et-Cher), in a marly bank belonging to the most ancient part of
+the middle Tertiary formation, fragments of silex which bore traces of
+the action of fire. This fire had not been lighted by accidental causes,
+for, says Mr. DeMortillet (_Le Prehistorique_, p. 90), the causes of
+instantaneous conflagrations can be only volcanic fires, fermentations,
+and lightning. "Now, in the entire region there is no trace of volcanic
+action, and neither are there any traces of turfy or vegetable deposits
+capable of giving rise to spontaneous inflammations--phenomena that
+are always very rare and very exceptional, as are also conflagrations
+started by lightning. Well, in the Thenay marls, the pieces of silex
+that had undergone the action of fire were found disseminated at
+different levels, and this could not have been a simple accident, but
+was evidently something that had been done intentionally. There existed,
+then, during the Aquitanian epoch, a being who was acquainted with fire
+and knew how to produce it."
+
+Mr. De Mortillet supposes that this being was an animal intermediate
+between man and the monkey, which he calls the _anthropopithecus_.
+
+This precursor of man made use of fire for splitting silex and
+manufacturing from it instruments whose cutting edge he perfected by
+means of a series of retouchings produced by slight percussions upon one
+of the surfaces only.
+
+I shall not enter in this place upon a discussion as to the existence
+of an anthropopithecus or Tertiary man, whom every one does not as yet
+accept, but will confine myself to giving the facts as to the use of
+fire in the remotest epochs, incontestable proofs of which exist from
+the time at which Quaternary man made his appearance. How this was
+discovered is indicated, according to Aryan tradition, by the Vedic
+hymns. The ancestors of the Aryans, these tell us, had seen the lighting
+dart forth from the shock of black clouds. They had seen the spark that
+fired the forests issue from the friction of dry branches agitated by
+the storm. They took a branch of soft wood, _arani_, and passing a thong
+around a branch of hard wood, _pramontha_, they caused it to revolve
+rapidly in a cavity in the _arani_, and thus evoked the god _Agni_, whom
+they nourished with libations of clarified butter, _soma_.
+
+The _Pramontha_, became the _Prometheus_ of the Greeks, the Titan who
+stole the fire, and it is from the Sanscrit _Agni_ that is derived the
+Latin _Ignis_, "fire," and the Greek [Greek: Agnos], "pure," and the
+_Agnus Dei_ of the Christians, who purifies all.
+
+Orientalists generally agree that the sign which is seen under the forms
+[inline illustration], [inline illustration], or [inline illustration],
+on a large number of objects of Aryan origin is a sort of sacred
+hieroglyphic, representing the _arani_ or _svastika_, formed of two
+pieces of soft wood fixed by four pins in such a way as not to revolve
+under the pressure of the Pramontha.
+
+This process of producing fire is also found among a host of more or
+less savage peoples, and especially in India, where, during the last
+month of the great feast of sacrifices, the sacred fire must always be
+kindled three hundred and sixty times a day with nine different kinds of
+wood that are prescribed by the rite.
+
+Fig. 1 shows the arrangement in use among the Eskimos, and Fig. 2 that
+employed by the Indians of North America.
+
+In 1828 there still existed at Essen, in Hanover, an analogous apparatus
+designed to produce an alarm fire. This was a large, horizontal, round
+wooden bar whose extremities pivoted in two apertures formed in vertical
+posts, and which was provided with a cord that was wound around it
+several times. Several persons, by pulling on the ends of this cord,
+caused the bar to revolve alternately in one direction and the other,
+and the heat developed by the friction lighted some tow that had
+previously been inserted in one of the apertures in the post.
+
+[Illustration: FIG. 1.--ESKIMO PRODUCING FIRE BY FRICTION.]
+
+It is certain that the alternate motion must have been produced directly
+by hand before being effected by cords. This simpler process is still in
+use in Tasmania, Australia, Polynesia, Kamtschatka, Thibet, Mexico, and
+among the Guanches of the Canary Isles, who are supposed to be the last
+representatives of the inhabitants of Atlantis, which sank under the
+waters at the close of the Quaternary epoch.
+
+Chamisso, who accompanied Kotzebue in his voyage, describes it as
+follows: "In the Caroline Islands, they rest a vertical piece of
+roundish wood, terminating in a point, and about a foot and a half in
+length and one inch in diameter, upon a second one fixed in the ground,
+and then give it a rotary motion by acting with the palms of the
+hands. This motion, which is at first slow and measured, is at length
+accelerated, while at the same time the pressure becomes stronger,
+whereupon the dust from the wood which has formed by friction and
+accumulated around the point of the movable piece begins to carbonize.
+This dust, which, after a fashion, constitutes a match, soon bursts into
+flame. The women of Eap are wonderfully dexterous in their use of this
+process."
+
+[Illustration: FIG. 2.--PROCESS EMPLOYED IN NORTH AMERICA FOR PRODUCING
+FIRE.]
+
+Fig. 3 shows another manner of obtaining fire by rotation which is
+employed by the Guachos, a half savage, pastoral people who inhabit the
+pampas of South America. Longitudinal friction must have preceded that
+obtained by rotation. It is still in use in most of the islands of
+Oceanica (Fig. 4), and especially in Tahiti and in the Sandwich Islands.
+
+In these latter, says again Chamisso, upon the fixed piece of wood they
+place another piece of the same kind, about the length of the palm, and
+press it obliquely at an angle of about 30 degrees. The extremity that
+touches the fixed piece is blunt, and the other extremity is held with
+the two hands, the two thumbs downward, in order to allow of a surer
+pressure. The piece is given an alternating motion, and in such a way
+that it shall always remain in the same plane inclined at an angle of 30
+degrees, and form, through friction, a small groove from six to eight
+centimeters in length. When the dust thus produced begins to carbonize,
+the pressure and velocity are increased. Wood of a homogeneous texture,
+neither too hard nor too soft, is the best for the purpose.
+
+The Malays operate as follows: A dry bamboo rod, about a foot in length,
+is split longitudinally, and the pith which lines the inside is scraped
+off, pressed, and made into a small ball which is afterward placed in
+the center of the cavity of one of the halves of the tube. This latter
+half is then fixed to the ground in such a way that the cavity and ball
+face downward. The operator next fashions the other half of the tube
+into a straight cutting instrument like a knife-blade, which he applies
+transversely to the fixed half and gives an alternating motion so as to
+produce a sort of sawing. After a certain length of time, a groove, and
+finally a hole, is produced. The cutting edge of the instrument is then
+so hot that it sets on fire the ball with which it has come in contact.
+
+[Illustration: FIG. 3.--GAUCHO OBTAINING FIRE.]
+
+Some peoples, the Fuegians especially, procure fire by striking together
+two flints. In the Aleutian Islands these latter, having been previously
+covered with sulphur, are struck against each other over a small saucer
+of dry moss dusted with sulphur. The Eskimos employ for this purpose
+pieces of quartz and iron pyrites.
+
+In the Sandwich Islands recourse is had to a process that necessitates
+much skill. There is arranged in a large dry leaf, rolled into the
+shape of a funnel, a certain number of flints along with some easily
+combustible twigs. On attaching the leaf to the end of a rod, and
+revolving the latter rapidly, it is said that fire is produced.
+
+Processes that are based upon the clashing of two flint stones must be
+much more inconvenient of application than we would be led to suppose.
+We are, in fact, accustomed to see the flint and steel used, but here
+the spark is a bit of iron raised to red heat through a mechanical
+action that has violently detached it from the mass under the form of
+a small sliver. In the case of two flint stones, the light that
+is perceived is of an entirely different nature, for it is a
+phosphorescence which is produced, even by a very slight friction, not
+only between two pieces of silex, but also between two pieces of quartz,
+porcelain, or sugar; and that the heat developed is but slight is proved
+by the fact that the phenomenon may occur under water. Of course,
+fragments of stones may be raised to a red heat through percussion; but
+this does not often occur, so for this reason the Fuegians keep up with
+the greatest care the fires that they have lighted, and it is this very
+peculiarity that has given their country a characteristic aspect and
+caused it to be named Terra del Fuego (land of fire). When they change
+their residence they always carry with them a few lighted embers which
+rest in their canoes upon a bed of pebbles or ashes.
+
+The same thing occurs, moreover, among the Australians and Tasmanians,
+who employ, as we have just seen, the rotary process. There are women
+among these peoples whose special mission it is to carry day and night
+lighted torches or cones made of a substance that burns slowly like
+punk. When, through accident, the fire happens to get extinguished in a
+tribe, these people often prefer to undertake a long voyage in order to
+obtain another light from a neighboring tribe rather than have recourse
+to a direct production of it.
+
+We can understand from what is still taking place in these distant
+countries why the worship of fire should have existed among our
+ancestors, and why sacerdotal associations, such as the Brahmins of
+India, the Guebers of Persia, the Vestals of Rome, the priests of Baal
+in Chaldea and Phenicia should have been specially instituted for
+producing and preserving it.
+
+Plutarch narrates (Numa, chap. ii.) that when the sacred fire happened
+to go out, there was employed for relighting it a brass mirror that
+had the form of a cone generated by the hypothenuse of an isosceles
+rectangular triangle revolving around one of the sides of the right
+angle.
+
+[Illustration: FIG. 4.--NATIVE OF OCEANICA OBTAINING FIRE BY FRICTION.]
+
+In a poem upon stones attributed to Orpheus, it is said that the sacred
+fire was also lighted by a bit of crystal which concentrated the rays of
+the sun upon the material to be inflamed. This process must have been
+the one that was most usually employed before fire became common. In
+fact, a plano-convex crystal lens has been found among the ruins of
+Nineveh. Aristophanes, in the _Clouds_, puts on the stage a coarse
+personage named Strepsiades, who points out to Socrates how he must
+manage so as not to pay his debts:
+
+"Streps.--Hast thou seen among druggists that beautiful transparent
+stone that they employ for lighting a fire?
+
+"Socr.--Thou meanest glass.
+
+"Streps.--Yes.
+
+"Socr.--Well! what wouldst thou do with it?
+
+"Streps.--When the registrar shall have made out his summons against me,
+I will take the glass, and, placing myself thus in the sun, will cause
+his writing to melt."
+
+As well known, writing was then traced on waxen tablets. Servius (in
+_AEn_., xii., 200) affirms that men of ancient times, instead of lighting
+fire upon the altar themselves, in their sacrifices, caused it to
+descend from heaven. He adds, according to Pliny, Titus Livius, and
+several old Latin historians, that Numa, who was initiated into all the
+wisdom of Etruria, practiced this art with success, but that Tullius
+Hostilius, having desired to repeat the evocation, guided only by the
+books of Numa, did not accomplish all the formalities prescribed by the
+rite and was struck dead by lightning.
+
+Is it not curious that twenty-four centuries afterward, in 1753,
+the physicist Reichman was killed by lightning in trying to repeat
+Franklin's experiment? This coincidence, however, is not the only one.
+Pliny (ii., 53) recounts that lightning was evoked by King Porsenna at
+the time when a monster named _Volta_, who was ravaging the country, was
+directing himself toward the capital, Volsinies.
+
+If we return to the Vedas, who had the habit of personifying all
+phenomena, we shall find that the fire Agni was the son of the carpenter
+who had manufactured the instrument by which it was produced, and of
+_Maya_ (magic). He took the name of Akta (anointed, [Greek: christos])
+when, nourished by libations of butter, he had acquired his full
+development. The Persians attributed likewise to Zoroaster the power
+of causing fire to descend from heaven through magic. Saint Clement of
+Alexandria (_Recog_., lib. iv.) and Gregory of Tours (_Hist. de Fr._,
+i., 5) speak of this. However this may be, the marvelous art was lost
+at an early date, for it was at such a date that priests began to have
+recourse to tricks that were more or less ingenious for lighting their
+sacred fireplaces in an apparently supernatural manner.--_A. De Rochas,
+in La Nature_.
+
+       *       *       *       *       *
+
+
+
+
+ST. BLAISE, THE WINNER OF THE DERBY.
+
+
+St. Blaise, the property of Sir Frederick Johnstone, was bred by Lord
+Alington, and is by Hermit from Fusee. This is an unexceptionable
+pedigree, for Hermit is now as successful and fashionable a sire as was
+even Stockwell in his palmiest days, while Fusee was far more than an
+average performer on the turf, and won several Queen's Plates and other
+races over a distance of ground. St. Blaise is by no means a big colt,
+standing considerably under sixteen hands. His color is about his worst
+point, as he is a light, washy chestnut, with a bald face and three
+white heels. He has a good head and neck, and very powerful back and
+muscular quarters, added to which his legs and feet are well shaped and
+thoroughly sound. His first appearance was made in the Twenty-fourth
+Stockbridge Biennial at the Bibury Club Meeting, when he won easily
+enough; but there were only four moderate animals behind him. A
+walk-over for the Troy Stakes followed, and then Macheath beat him
+easily enough for the Hurstbourne Stakes, though he finished in front
+of Adriana and Tyndrum. For the Molecomb Stakes at Goodwood, he ran a
+dead-heat with Elzevir, to whom he was giving 7 lb.; and Bonny Jean,
+in receipt of 10 lb., was unplaced. A 7 lb. penalty seemed to put him
+completely out of the Dewhurst Plate; but he must then have been out
+of form, as, on the following day, it took him all his time to defeat
+Pebble by a neck in the Troy Stakes. This season he has only run twice.
+His fourth in the Two Thousand was by no means a bad performance,
+considering that he was palpably backward; and his victory of last week
+is too recent to need further allusion. Porter, his trainer, can boast
+of several other successes in the great race at Epsom; but Charles Wood
+had never previously ridden a Derby winner. St. Blaise was unfortunately
+omitted from the entries for the St. Leger, but has several valuable
+engagements at Ascot next week, and appears to have the Grand Prize of
+Paris, on Sunday, at his mercy.--_Illustrated London News_.
+
+[Illustration: ST. BLAISE, THE WINNER OF THE DERBY.]
+
+       *       *       *       *       *
+
+[NATURE.]
+
+
+
+
+SCIENTIFIC PROGRESS IN CHINA AND JAPAN.
+
+
+Various steps in the progress of China, and Japan in the adoption of
+Western science and educational methods have from time to time been
+noticed in these columns. To the popular mind the names of the two
+countries are synonymous with rigid, unreasoning conservatism and with
+rapid change, respectively. The grave, dignified Chinese, who maintains
+his own dress and habits even when isolated among strangers, and whose
+motto appears to be, _Stare super mas antiquas_, is popularly believed
+to be animated by a sullen, obstinate hostility toward any introduction
+from the West, however plain its value may be; while his gayer and more
+mercurial neighbor, the Japanese, is regarded as the true child of the
+old age of the West, following assiduously in its parent's footsteps,
+and pursuing obediently the path marked out by European experience.
+There is considerable misconception in this, as indeed there is at
+all times in the English popular mind with regard to strange peoples.
+Broadly speaking, it is no doubt correct to say that, Japan has adopted
+Western inventions and scientific appliances with avidity; that she
+has shown a desire for change which is abnormal, and a disposition to
+destroy her charts and sail away into unsurveyed seas, while China
+remains pretty much where she always was. She is now, with some
+exceptions, what she was twenty, two hundred, perhaps two thousand years
+ago, while a new Japan has been created in fifteen years. All this, we
+say, is true, but it is not the whole truth. China also has had her
+changes; not indeed so marked or rapid, not so much in the nature of a
+_volte-face_ on all her past as those of her neighbor.
+
+The radical difference between the two countries in this respect we take
+to be this: that while Japan loves change for the sake of change, China
+dislikes it, and will only adopt it when it is clearly demonstrated to
+her that change is absolutely necessary. To the Japanese change appears
+to be a delightful excitement, to the Chinese a distasteful necessity;
+to the former whatever is must be wrong, to the latter whatever is is
+right. As a consequence of this difference between the two peoples, when
+China once makes a step forward it is generally after much deliberation,
+and is never retraced. Japan is constantly undertaking new schemes
+with little care or thought for the morrow, but with the applause of
+injudicious foreign friends. In a short time she discovers that she has
+underrated the expense or exaggerated the results, and her projects
+are straightway abandoned as rapidly and thoughtlessly as they were
+commenced. Swift suggested as a suitable subject for a philosophical
+writer a history of human projects which were never carried out; the
+historian of modern Japan finds these at every turn. Where, for example,
+are the results of the great surveys, trigonometrical and others, which
+were commenced in Yezo and the main island about ten years ago? A large,
+expensive, but highly competent foreign staff was engaged, and worked
+for a few years; but suddenly the whole survey department was swept
+away, and the valuable instruments are, or were recently, lying rusting
+in a warehouse in Tokio. The same story may be told of scores of other
+scientific or educational undertakings in Japan. An able and careful
+writer, Col. H.S. Palmer, R.E., who has recently, with a friendly and
+sympathetic eye, examined the whole field of recent Japanese progress,
+in the _British_ _Quarterly Review_ is forced to acknowledge this. "Once
+having recognized," says this officer, "that progress is essential to
+welfare, and having resolved, first among the nations of the East, to
+throw off past traditions and mould their civilization after that of
+Western countries, it was not in the nature of the lively and impulsive
+Japanese to advance along the path of reform with the calmness and
+circumspection that might have been possible to a people of less active
+temperament. Without doubt many foreign institutions were at first
+adopted rather too hastily, and the passing difficulties which now beset
+Japan are to some extent the inevitable result." It would be blindness
+to deny that the net result of the Japanese efforts is progress of a
+very remarkable kind, but it is a progress which in many respects lacks
+the firm and abiding characteristics of Chinese movements.
+
+The proverb, _Chi va piano va sano_, which was recommended ten years ago
+to Japanese attention by an eminent English official, and apparently
+disregarded by them, has been adopted by their continental neighbors.
+To the blandishments of pushing diplomatists or acute promoters, the
+Chinese are deaf. However we may felicitate ourselves on our inventions,
+scientific appliances, "the railway and the steamship and the thoughts
+that shake mankind," our progress, the newspapers, the penny post, and
+what not, China will not adopt them simply because _we_ have found
+their value and are proud of them. But if, within the range of her own
+experience, she finds the advantage of these things, she will employ
+them with a rapidity and decision surpassing those of the Japanese. A
+conspicuous instance of this will be found in her recent action with
+respect to telegraphs. For years the Chinese steadily refused to have
+anything to do with them; the small land line which connected the
+foreign community of Shanghai with the outer world, was maintained
+against the violent protests of the local authorities, and the cable
+companies experienced some difficulty in getting permission to land
+their cables. But during the winter of 1870-80, when war with Russia
+was threatened, the value of telegraphs was demonstrated to the Peking
+government. The Peiho at Tientsin was closed by ice against steamers,
+and news could only be carried to the capital by overland couriers from
+Shanghai. Before a year elapsed a land line of telegraph was being
+constructed between this port and Tientsin; in a few months the line
+was in working order, and the Chinese metropolis is now in telegraphic
+communication with every capital in Europe.
+
+This conservatism, respect for antiquity, conceit, prejudice, call it
+what we will, has something in it that extorts our respect. Let us
+imagine a dignified and cultivated Chinese official conversing with
+a pushing Manchester or Birmingham manufacturer, who descants on the
+benefits of our modern inventions. He would probably commune with
+himself in this wise, whatever reply Oriental politeness would dictate
+to his interviewer: "China has got on very well for some tens of
+centuries without the curious things of which this foreigner speaks; she
+has produced in this time statesmen, poets, philosophers, soldiers; her
+people appear to have had their share of affliction, but not more than
+those of Europe; why should we now turn round at the bidding of a
+handful of strangers who know little of us or our country, and make
+violent changes in our life and habits? A railway in a province will
+throw thousands of coolies and boatmen out of employment and bring
+on them misery and starvation. This foreigner says that railways and
+telegraphs have been found beneficial in his country; good, let his
+countrymen have them if they please, but let us rest as we are for the
+present. Moreover, past events have not given us such faith in Europeans
+that we should take all they say for wisdom and justice." A day will
+undoubtedly come when China also will have her great mechanical and
+scientific enterprises; but what we contend for here is that nothing
+we can say or do will bring that time an hour nearer. European public
+opinion is to China a dead letter; she refuses to plead before that
+tribunal. Each step of her advance along our path must be the result of
+her own reflection and experience; and our wisest policy would be to
+leave her to herself to advance on it as she deems best. SINENSIS.
+
+       *       *       *       *       *
+
+
+
+
+THE DIAMOND FIELDS OF SOUTH AFRICA.
+
+
+At a recent meeting of the Institution of Civil Engineers, the paper
+read was "On the Diamond Fields and Mines of South Africa," by Mr. James
+N. Paxman, Asoc. M. Inst. C.E.
+
+The author commenced by stating that Kimberley was situated in
+Griqualand West, above 700 miles northeast from Table Bay, and 450 miles
+inland from Port Elizabeth and Natal on the east coast. Lines of railway
+were in course of construction from Table Bay and Port Elizabeth to
+Kimberley, and were about half completed. In Griqualand there were
+several diamond mines, the principal of which were Kimberley, De Beer's,
+Du Toit's Pan, and Bultfontein.
+
+In the Orange Free States there were also two mines, viz., Jagersfontein
+and Koffeyfontein, the first of which produced fine white stones. The
+mines were all divided into claims, the greatest number of which were to
+be found in the Du Toit's Pan mine. Bultfontein came next.
+
+The deepest and most regularly worked was the Kimberley mine. The next
+deepest was De Beer's, which, however, was very unevenly worked. Then
+followed Du Toit's Pan and Bultfontein. The Du Toit's Pan mine ranked
+next in importance to Kimberley mine. Diamonds were first discovered in
+1867 by Mr. O'Reilley, a trader and hunter, who visited a colonist named
+van Niekirk, residing in Griqua. The first diamond, on being sent to the
+authorities, was valued at 500_l_. Considerable excitement was caused
+throughout the colony, and the natives commenced to look for diamonds,
+and many were found, among which was one of eighty-three and a half
+carats, valued at 15,000_l_. In 1868 many enterprising colonists made
+their way up the Vaal River, and were successful in finding a good
+number of diamonds. The center of the river diggings on the Transvaal
+side was Klipdrift, and on the opposite side Pniel. In all there were
+fourteen river diggings. Du Toit's Pan and Bultfontein mines were
+discovered in 1870 at a distance of twenty-four miles from the river
+diggings. The diggers took possession of these places. Licenses were
+granted giving the first diggers a right to work. In 1871 De Beer's
+and Kimberley mines were discovered, and in 1872, Mr. Spalding's great
+diamond of 2821/2 carats was found at the river diggings.
+
+The mines were of irregular shape, and were surrounded by reef. The top
+reef was a loose shale, and had given great trouble from the frequent
+slips. Below this were strata of trachitic breccia and augite; the
+formation was then seamy to an unknown depth.
+
+Within the reef, the surface soil was red, and of a sandy nature. The
+next stratum was of a loose, yellow, gravelly lime, and the third blue,
+of a hard, slaty nature. This last was the real diamantiferous soil.
+Large stones had been found in the "yellow," but the working of this
+generally did not pay. Kimberley mine, however, had paid very well all
+through. The method of working in deep ground was determined by roadways
+running north and south. The soil was hauled up to these roadways,
+and taken to the sorting tables. The roadways decaying shortly after
+exposure to the atmosphere, a system of hand windlass was adopted, which
+worked very well for a time until horsewhims were adopted in 1873.
+The depths of the mines increasing, horsewhims had to give way to
+steam-engines in 1876.
+
+The first diggers treated on an average ten loads per day each party. At
+the present time the least taken out by any engine, when fully employed,
+was 250 loads per day. The cost of working, with present appliances, the
+first one hundred feet in depth, was 3s. 6d. per load; the second one
+hundred feet (mostly blue) 5s.; the third one hundred feet 8s.; and
+the fourth one hundred feet 11s. Through scarcity of water a system
+of dry-sorting had to be resorted to for several years; but it was
+superseded by the introduction of washing machinery, which was now
+generally employed.
+
+At the commencement, through inexperience, many serious mistakes were
+made. When the first diggers reached the bottom of the red sand, they
+thought no diamonds would be found in the next stratum. When, however,
+diamonds were found in the second stratum, the diggers had again to
+remove the debris, and so also when the "blue" was reached. Some of the
+claims in the Du Toit's Pan and Bultfontein mines were irregular in
+shape. The other mines, however, had been properly and regularly laid
+out. One or two shafts had been connected with the mines by underground
+galleries. These galleries were convenient in the case of falls of reef.
+Labor, at first, was cheap; but from 20s. per month, wages rose to 30s.
+per week, and food. The yellow soil offered no difficulty in working,
+being loose and broken, but the blue soil required blasting.
+
+Several methods were adopted for extracting the soil and carrying it
+from the mine before steam was introduced. The cost of wood for heating
+purposes was a serious item, but good coal had now been found at 160
+miles from Kimberley, costing 13l. per ton; another serious item of
+expense was the transport over natural roads only, costing from 18_l_.
+to 30_l_. per ton.
+
+The machinery designed by the author for this industry was described.
+A sixteen horse-power direct-acting winding engine was introduced for
+hauling up loads at the rate of about one thousand feet per minute, and
+a twenty-five horse-power geared engine, for hauling up heavier loads at
+the rate of from six hundred feet to seven hundred feet per minute.
+
+Water was dear, and water-heaters were fitted to each engine, by which
+thirty-three per cent. of the water was again used, thus saving one
+third. The boilers were of the locomotive type, mostly of steel, to save
+weight, and thus reduce the cost of transit. The fire-boxes were also
+made of steel of very soft and ductile quality. A semi-portable engine
+was made for driving the wash mill. The engine was so arranged that it
+might be removed from the boiler and placed separately. The boiler was
+made to work at a pressure of 140 pounds per square inch. Automatic cut
+off gear was fixed to each engine, and the governors were provided with
+a spiral spring for adjusting the speed. A screen, or cylinder wash mill
+and elevator, were used for dealing with the diamantiferous soil, and
+were described. Standing wires were fixed at the back of the machinery,
+and passed over a frame fixed at the top of the mine, the end of the
+mine being secured to strong wooden posts. After the blue soil had been
+blasted and collected into trucks, it was placed in tubs, which ascended
+the standing wires. It was then emptied into the depositing box. The
+yellow soil might be put into the wash mill direct, also that portion of
+the blue which had passed through the screen fixed over the depositing
+box. The remainder of the blue, which was spread out to a thickness of
+four inches or six inches on the depositing ground, some distance from
+the mine to dry, was delivered into the upper part of the screen. The
+return water from the elevator, with a portion of fresh water, was also
+discharged at this point, and operations were thus greatly facilitated,
+the soil becoming thoroughly saturated, and passing more easily down the
+shoots. The large pieces which would not drop through the meshes of the
+screen were discharged into trucks at the lower end and carried away.
+The smaller pieces with water, in the form of sludge, fell through into
+a shoot, and thus were conveyed into the wash mill pan, and there kept
+in constant rotating motion by agitators. The diamonds and other pieces
+of high specific gravity sank to the deepest part of the pan, and the
+remainder of the sludge was forced over the inner ledge to the elevator.
+The sludge was then lifted and thrown upon an inclined screen and down
+the shoot over the side of the bank. The residue left in the pan at the
+end of the day's work was passed through a pulsator, in which, by the
+force of water, the mud and lighter particles were carried away, leaving
+behind the diamonds, agates, garnets, and other heavy stones. It was the
+practice occasionally to put a few inferior stones in the soil, to test
+the efficiency of the machinery.
+
+In 1881 the author paid a visit to Kimberley, and found the industry a
+large one. The Post Office return showed the value of diamonds passed
+through the office in one year to be 3,685,000_l_. Illicit diamond
+traffic had hitherto been a source of great trouble at the fields. It
+was a question whether this industry would ever cease; in any case there
+was no doubt but that it would last for over a century. It was believed
+that the main bed of diamonds had not yet been reached, and that the
+mines in operation were merely shafts leading to it. Now that the water
+works were finished, with a bountiful supply of water, coupled with
+the great boon of railways to the Fields, and the advantage of a law
+recently passed for the prevention of illicit buying, a great and
+prosperous future was in store for the Diamond Fields.
+
+       *       *       *       *       *
+
+
+
+
+SPONGES AT THE BAHAMAS.
+
+
+Within the last few decades the sponge industry of the Bahama Islands
+has increased at such a rate that to-day it is the second in importance
+on the island. Although the product is not of such excellent quality
+as that from the Mediterranean, it sells well and is in demand both in
+England and in America.
+
+For sponge fishing little boats of ten tons burden are employed and
+manned by from six to twelve men. The sponges that are washed upon the
+rocks and reefs are taken with iron rakes fastened to long poles, or
+are brought to the surface by divers and spread out on the deck of the
+vessel. This kills their soft, slimy organisms, which are black as tar.
+The sponges are then repeatedly beaten with sticks to remove this black
+slime, and afterward well washed.
+
+The sponges are then sorted and softened for several hours in lime
+water, dried in the sun, and bleached. They are finally pressed by
+machinery into 100 lb. balls and then packed for shipping.
+
+A rich and very extensive "sponge field" was recently discovered near
+Eleuthera, but as the water there has a considerable depth, five or six
+fathoms, fishing is attended with difficulty. In fact, it is rendered
+impossible wherever the "segler" or sailor fish are found, for the mud
+which these tiny creatures stir up completely veils the sponges from the
+eye of the fisherman.
+
+In 1881 the export amounted to $150,000, of which three-fourths came to
+America.--_Chem. Zeit_.
+
+       *       *       *       *       *
+
+
+
+
+TESTING FISH OVA FOR IMPREGNATION.
+
+
+The development of the eyes of game fishes (salmonoids), as is well
+known, is relatively far advanced before the fish culturist is
+positively assured that embryos are developing normally in the egg.
+A method, therefore, which would enable us to shorten this period of
+probation would not only be desirable, but be also of value under
+certain circumstances, since it is certainly annoying after having had
+them in water for four or five weeks, spending time and care over them,
+to eventually find, when the "eye spots" do not develop, that all our
+trouble was wasted and that no development at all took place.
+
+It is true one may, with proper preparations and with the help of the
+pocket lens or microscope, follow the development while there may be no
+external signs of the process evident. This method of making the
+test is, however, not adapted to the purposes of the practical fish
+culturist, who will have better success by the following method:
+
+If fertilized fish ova are placed in a 50 per cent. solution of wine
+vinegar [any ordinary vinegar will probably be found to answer just
+as well--_Tr_.] the embryo, even during the very first stages of
+development, will become apparent to the eye lying on the transparent
+yelk. The acetic acid contained in the mixture, one part water to
+one part wine vinegar, causes the material of the embryo proper to
+coagulate, while the yelk remains clear.
+
+A short time after the ova are laid in this mixture, and during the
+first week after impregnation, a white circle at one pole of the
+egg should become apparent, and in the course of the second week a
+cylindrical white streak running from the edge of the circle toward its
+center should be evident. If these features are not developed by the
+test, the eggs have not been fertilized, and are, therefore, worthless.
+
+We will not complicate the application of the method by describing other
+details of the development, but would merely suggest that when a lot of
+ova are fertilized a small portion should be left unimpregnated. These
+could then be tested in comparison with the fertilized ova from day to
+day, using say three eggs at a time of each lot. The observant culturist
+could by this means construct for himself a scale of development
+covering the period embraced by his experiments. At a lower temperature
+the development is slower than at a higher one. The difference of
+appearance between fertilized and unfertilized ova treated by the method
+will demonstrate its utility. Whoever does not trust to the method for
+the evidence of death of the eggs until after five weeks subsequent to
+impregnation, must of course wait.
+
+Director Tiefenthaler, of Koelzen, has had the kindness to test the
+method practically, and finds it useful to fish culturists.--_Prof.
+Nussbaum_.
+
+[A very little practice, it seems to the translator, would serve to
+enable any person of ordinary intelligence to apply this method, or
+several others which might be suggested. Other substances which would
+answer the same purpose would be dilute solutions of picric or chromic
+acid, of not more than one to one-half per cent., or one part to two
+hundred of water. Vinegar or acetic acid of the shops may also be used;
+the last to be diluted in the proportions of about one part in ten of
+water. The acids cited will coagulate and cause the germ disk to turn
+white or yellow in a few hours. Chromic is better than picric acid, as
+it coagulates the yelk also, but turns the latter much darker than the
+embryo or embryonic disk.--_Tr_.]
+
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+End of the Project Gutenberg EBook of Scientific American Supplement, No.
+392, July 7, 1883, by Various
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+The Project Gutenberg EBook of Scientific American Supplement, No. 392,
+July 7, 1883, by Various
+
+Copyright laws are changing all over the world. Be sure to check the
+copyright laws for your country before downloading or redistributing
+this or any other Project Gutenberg eBook.
+
+This header should be the first thing seen when viewing this Project
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+**Welcome To The World of Free Plain Vanilla Electronic Texts**
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+**eBooks Readable By Both Humans and By Computers, Since 1971**
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+*****These eBooks Were Prepared By Thousands of Volunteers!*****
+
+
+Title: Scientific American Supplement, No. 392, July 7, 1883
+
+Author: Various
+
+Release Date: August, 2005 [EBook #8742]
+[Yes, we are more than one year ahead of schedule]
+[This file was first posted on August 7, 2003]
+
+Edition: 10
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THE PROJECT GUTENBERG EBOOK SCIENTIFIC AMERICAN SUP. NO. 392 ***
+
+
+
+
+Produced by Olaf Voss, Don Kretz, Juliet Sutherland,
+Charles Franks and the DP Team
+
+
+
+
+[Illustration]
+
+
+
+
+SCIENTIFIC AMERICAN SUPPLEMENT NO. 392
+
+
+
+
+NEW YORK, JULY 7, 1883
+
+Scientific American Supplement. Vol. XVI, No. 392.
+
+Scientific American established 1845
+
+Scientific American Supplement, $5 a year.
+
+Scientific American and Supplement, $7 a year.
+
+
+       *       *       *       *       *
+
+TABLE OF CONTENTS.
+
+I.   ELECTRICITY AND MAGNETISM.--Improved Dynamo Machine.
+     Eight figures.
+
+     An Improved Manganese Battery.--By GEO. LEUCHS.
+
+     The Cause of Evident Magnetism in Iron, Steel, and other Magnetic
+     Metals.--By Prof. D. E. HUGHES. Neutrality.--Superposed
+     Magnetism.--Elastic Nature of the Ether Surrounding the Magnetic
+     Molecules. 3 figures.
+
+II.  ENGINEERING.--The Westinghouse Brake. 2 figures.
+
+     Hydraulic Elevators and Motors.--By B. F. JONES.--Bearing
+     upon the Water Supply of Cities.--Cost of Water used.--Objectionable
+     effects on Water Works.--Best method of arranging water
+     supply.--Cause of Accidents.--Advantages of Water Motors over
+     Steam Engines.--Rates for Water Motors.
+
+     Water Supply of Small Towns.--Process of Softening Hard
+     Water. Six figures.
+
+     Improved Water Meter. Several figures.
+
+III. TECHNOLOGY.--Washing Machine for Wool. 1 figure.
+
+     Increasing the Illuminating Power of Gases, etc.--By V. POPP.--
+     3 figures.
+
+     Preventing Iron from Rusting.
+
+     An Elastic Mass for Confectioners' Use.
+
+     Caoutchouc.
+
+     Photographic Action Studied Spectroscopically.
+
+     Salt and Lime.
+
+     Renewing Paint without Burning.
+
+     A Green or Golden Color for all Kinds of Brass.--By E. PULCHER.
+
+     Vinegar.
+
+     The Preservation of Meat by Carbonic Acid.
+
+     On the Adulteration of Soap.--By Dr. H. BRACKEBUSCH.
+
+IV.  CHEMISTRY.--Testing Olive Oil.--By Dr. O. BACH.
+
+     On the Theory of the Formation of Compound Ethers.
+
+     The Alizarine Industry.
+
+     Reduction of Oxidized Iron by Carbonic Oxide.
+
+V.   MEDICINE AND HYGIENE.--Bovine and Human Milk; the Difference
+     in its Action and Composition.--By C. HUSSON.
+
+     Cereal Foods in their Relation to Health and Disease.--By F. R.
+     CAMPBELL.
+
+     Moist Air in Living Rooms.
+
+     The Developmental Significance of the Human Physiognomy.--
+     By E. D. COPE.--Numerous illustrations.
+
+VI.  NATURAL HISTORY.--The Diamond Fields of South Africa.
+
+     Sponges at the Bahamas.
+
+     Testing Fish Ova for Impregnation.
+
+VII. MISCELLANEOUS.--The Production of Fire. 4 figures.
+
+     St. Blaise.--The winner of the Derby. 1 illustration.
+
+       *       *       *       *       *
+
+
+
+
+IMPROVED DYNAMO MACHINE.
+
+
+The continuous current and the alternating current generators invented
+by Dr. J. Hopkinson and Dr. Alexander Muirhead are peculiarly
+interesting as being probably the first in which the bobbins of the
+armature were wound with copper ribbon and arranged on a disk armature
+much in the same way as was afterward done by Sir William Thomson and by
+Mr. Ferranti. In the Muirhead-Hopkinson machine the armature coils are
+attached to a soft iron ring, whereas in the Ferranti the iron core is
+dispensed with, and a gain of lightness in the armature or rotating part
+effected; this advantage is of considerable importance, though Messrs.
+Hopkinson and Muirhead can of course reduce the weight of this iron core
+to insignificant proportions.
+
+[Illustration: HOPKINSON & MUIRHEAD'S DYNAMO-ELECTRIC GENERATOR.]
+
+The general form of this generator is clearly shown by the side and end
+elevation.
+
+The armature is made by taking a pulley and encircling it with a rim of
+sheet-iron bands, each insulated from the other by asbestos paper. On
+one or both sides of the rim thus formed, radial slots are cut to admit
+radial coils of insulated copper wire or ribbon, so that they lie in
+planes parallel to the plane of the pulley. In the continuous current
+machine coils are placed on both sides of the iron rim and arranged
+alternately, that on the one side always covering the gap between two on
+the other side. In this way, when a coil on one side of the rim is at
+its "dead point" and yields its minimum of current, the corresponding
+coil on the other side is giving out its maximum.
+
+The field magnets are made in a similar manner to the armature and run
+in circles parallel to the rim of the latter. The cores may be built up
+of wrought iron as the rim of the armature is; but it is found cheaper
+to make them of solid wrought or cast iron. To stop the local induced
+currents in the core, however, Messrs. Muirhead and Hopkinson cut
+grooves in the faces of the iron cores, and fill them up with sheet-iron
+strips insulated from each other, similar to the sheet-iron rim of the
+armature.
+
+The coils, both in the armature and electro-magnets, are packed as
+closely as they may to each other, and have thus a compressed or
+quadrilateral shape. The arrangement is shown in Figs. 1 and 2, which
+represent, in side view and plan, the armature pulley with the soft iron
+rim and coils attached. There a is the pulley which is keyed to the
+shaft of the machine, and is encircled with bands of sheet iron, b,
+insulated from each other by ribbons of asbestos paper laid between
+every two bands. When the rim has been built up in this way, radial
+holes are drilled through it from the outer edge inward, and the whole
+rim is bound together by bolts, d, inserted in the holes and secured by
+cottars, e. Radial slots are then cut on each side of the rim all round,
+and the coils of wire mounted on them.
+
+Figs. 3 and 4 show the armature of the continuous current dynamo, with
+the coils on one side of the rim, half way between the coils on the
+other side, so as to give a more continuous current. In the alternating
+current machine the slots on the opposite faces are face to face.
+
+Figs. 5 and 9 illustrate the complete continuous current machine, Fig.
+9 showing the internal arrangement of the field magnets, and Fig. 5 the
+external frame of cast iron supporting them. In these figures a is the
+armature already described, b b are the cores of the electro-magnets
+with a strong cast iron backing, c c; d d are the exciting coils or
+field magnets, so connected that the poles presented to the armature are
+alternately north and south, thus bringing a south pole on one side of
+the armature opposite a north pole on the other side.
+
+The commutator, e, is arranged to prevent sparking when the brushes
+leave a contact piece. This is done by splitting up the brushes into
+several parts and inserting resistances between the part which leaves
+the contact piece last and the rest of the circuit. This resistance
+checks the current ere the final rupture of contact takes place.
+
+Figs. 6 and 7 will explain the structure of the commutator. Here a a a
+are the segments or contact pieces insulated from each other, and b' b
+b are the collecting brushes carried on a spindle, c c'. One of these
+brushes, b', is connected to the spindle, c, through an electrical
+resistance of plumbago, arranged as shown in Fig. 7, where d e are metal
+cylinders, d being in contact with the brush, b', while e is in contact
+with the spindle, c. The space, f, between these two cylinders, d e, is
+filled with a mixture of plumbago and lampblack of suitable resistance,
+confined at the ends by ivory disks. The brush, b', is adjusted by
+bending till it remains in contact with any segment of the commutator
+for a short time after the other brushes have left contact with that
+segment, and thus instead of sudden break of circuit and consequent
+sparking, a resistance is introduced, and contact is not broken until
+the current has been considerably reduced.
+
+The contact segments are supported at both ends by solid insulating
+disks; but they are insulated from each other by the air spaces between
+them, where the brushes rub upon them.
+
+The alternating current dynamo of Drs. Hopkinson and Muirhead differs
+little in general construction from that we have described; except that
+the commutator is very much simplified, and the armature bobbins are
+placed opposite each other on both sides of the rim. Instead of forming
+the coils into complete bobbins, Dr. Muirhead prefers to wind them in a
+zigzag form round the grooved iron rim after the manner shown in Fig. 8,
+which represents a plan and section of the alternating current armature.
+This arrangement is simpler in construction than the bobbin winding, and
+is less liable to generate self-induction current in the armature. Sir
+William Thomson has adopted a similar plan in one of his dynamos. In
+Fig. 8, a is the pulley fixed to the spindle of the machine, b b is
+the iron rim, and c c are the zigzag coils of copper ribbon. The field
+magnets are also wound in a similar manner.
+
+It will be seen from our description that Drs. Hopkinson and Muirhead
+have scarcely had sufficient credit given them for this interesting
+machine, which so closely approximates to the Ferranti. One of their
+alternating dynamos has been built, and was shown at the Aquarium
+Exhibition. It works well, and is capable of supporting 300 Swan lights,
+while in size and appearance it resembles the Ferranti machine in a
+very striking manner. Drs. Muirhead and Hopkinson have also designed
+a magneto-electric alternating current machine; but as it closely
+resembles the machines described, with the exception that permanent
+magnets are employed as field magnets, we need not dwell upon it
+further.--_Engineering_.
+
+       *       *       *       *       *
+
+
+
+
+AN IMPROVED MANGANESE BATTERY.
+
+By GEORGE LEUCHS.
+
+
+The Leclanche battery is distinguished for its simplicity, its small
+internal resistance (0.7 to 1.0 Siemens unit), and that all chemical
+action ceases when the current is broken, that it is not sensitive to
+external influence, and by the self-renewal of the negative electrodes.
+But on the opposite side the action is not very great (= 1.20 or 1.48
+D.), and the zinc as well as the sal ammoniac are converted into
+products that cannot be utilized.
+
+I replace the solution of sal ammoniac by one of caustic potash or
+soda (12 to 15 per cent.), and the thin zinc rods by zincs with larger
+surfaces. In this manner, I obtain a powerful and odorless battery,
+having all the valuable qualities of the Leclanche, and one that
+permits of a renewal of the potash solution as well as of the negative
+electrode.
+
+The electromotive power of this element may be as high as 1.8 D. The
+same pyrolusite (binoxide of manganese) cylinder used with the same thin
+rod of zinc will precipitate 75 per cent. more copper from solution in
+an hour when caustic potash is used than when sal ammoniac is employed.
+But by replacing the thin zinc rod by a zinc cylinder of large surface,
+21/2 times as much copper is precipitated in the same time.
+
+The more powerful action of such a pair is explained by the stronger
+excitation and more rapid regeneration that the negative electrodes
+undergo from the oxidizing action of the air in the potash solution, as
+well as by the fact that this solution is a better conductor than the
+sal ammoniac solution. The potash solution does not crystallize easily,
+hence the negative electrode remains free from crystals and does not
+require filling up with water. Zinc dissolves only while in contact
+with negative bodies, hence there is no unnecessary consumption of zinc
+either in the open or closed circuit.
+
+When the potash lye has become useless, I regenerate it by removing the
+zinc in the following manner: I pour the solution from the cells, put
+it in a suitable vessel, where I add water to replace that already
+evaporated, and then shake it up well at the ordinary temperature with
+hydrated oxide of zinc (zincic hydrate). Under this treatment the
+greater portion of the zinc that had been chemically dissolved by the
+potash is precipitated in the form of zinc hydrate, along with
+some carbonate. The liquid is now allowed to settle, and the clear
+supernatant solution is poured back again into the battery cells. The
+battery has rather greater electromotive force when this regenerated lye
+is used, because certain foreign matters from the carbon, like sulphur,
+chlorine, sulphuric acid, etc., are removed by this treatment.
+
+The regeneration of the (brown coal) carbon goes on of itself, beneath
+the lye, through the oxidizing action of the atmospheric air; it is
+advantageous to have a part of the carbon sticking out of the liquid. Of
+course the regeneration takes place much more quickly if the electrodes
+are taken out and exposed to the air. In this case the carbon electrode
+need not be very thick, and can be flat or of tubular form. In the
+former case it must have a large volume, and the massive cylindrical
+form is recommended. The zinc electrode must be kept covered deeply with
+potash. The cells must have free access of air, and the potash must be
+replaced as soon as it is exhausted.--_Chem. Zeit_.
+
+       *       *       *       *       *
+
+[Concluded from SUPPLEMENT No. 390, page 6217.]
+
+
+
+
+THE CAUSE OF EVIDENT MAGNETISM IN IRON, STEEL, AND OTHER MAGNETIC
+METALS.
+
+[Footnote: Paper lately read before the Society of Telegraph Engineers
+and Electricians.]
+
+By Professor D. E. HUGHES, F.R.S., Vice-President.
+
+NEUTRALITY.
+
+
+The apparatus needed for researches upon evident external polarity
+requires no very great skill or thought, but simply an apparatus to
+measure correctly the force of the evident repulsion or attraction; in
+the case of neutrality, however, the external polarity disappears, and
+we consequently require special apparatus, together with the utmost care
+and reflection in its use.
+
+From numerous researches previously made by means of the induction
+balance, the results of which I have already published, I felt convinced
+that in investigating the cause of magnetism and neutrality I should
+have in it the aid of the most powerful instrument of research ever
+brought to bear upon the molecular construction of iron, as indeed of
+all metals. It neglects all forces which do not produce a change in the
+molecular structure, and enables us to penetrate at once to the interior
+of a magnet or piece of iron, observing only its peculiar structure
+and the change which takes place during magnetization or apparent
+neutrality.
+
+The induction balance is affected by three distinct arrangements of
+molecular structure in iron and steel, by means of which we have
+apparent external neutrality.
+
+Fig 1 shows several polar directions of the molecules as indicated
+by the arrows. Poisson assumed as a necessity of his theory, that
+a molecule is spherical; but Dr. Joule's experimental proof of the
+elongation of iron by one seven-hundred and-twenty-thousandth of its
+length when magnetized, proves at least that its form is not spherical;
+and, as I am unable at present to demonstrate my own views as to its
+exact form, I have simply indicated its polar direction by arrows--the
+dotted oval lines merely indicating its limits of free elastic rotation.
+
+In Fig. 1, at A, we have neutrality by the mutual attraction of each
+pair of molecules, being the shortest path in which they could satisfy
+their mutual attractions. At B we have the case of superposed magnetism
+of equal external value, rendering the wire or rod apparently neutral,
+although a lower series of molecules are rotated in the opposite
+direction to the upper series, giving to the rod opposite and equal
+polarities. At C we have the molecules arranged in a circular chain
+around the axis of a wire or rod through which an electric current
+has passed. At D we have the evident polarity induced by the earth's
+directive influence when a soft iron rod is held in the magnetic
+meridian. At E we have a longitudinal neutrality produced in the same
+rod when placed magnetic west, the polarity in the latter case being
+transversal.
+
+In all these cases we have a perfectly symmetrical arrangement, and I
+have not yet found a single case in well-annealed soft iron in which I
+could detect a heterogeneous arrangement, as supposed by Ampere, De la
+Rive, Weber, Wiedermann, and Maxwell.
+
+We can only study neutrality with perfectly soft Swedish iron. Hard
+iron and steel retain previous magnetizations, and an apparent external
+neutrality would in most cases be the superposition of one magnetism
+upon another of equal external force in the opposite direction, as shown
+at B, Fig. 1. Perfectly soft iron we can easily free, by vibrations,
+from the slightest trace of previous magnetism, and study the neutrality
+produced under varying conditions.
+
+[Illustration: FIG. 1.]
+
+If we take a flat bar of soft iron, of 30 or more centimeters in
+length, and hold it vertically (giving while thus held a few torsions,
+vibrations, or, better still, a few slight blows with a wooden mallet,
+in order to allow its molecules to rotate with perfect freedom), we find
+its lower end to be of strong north polarity, and its upper end south.
+On reversing the rod and repeating the vibrations, we find that its
+lower end has precisely a similar north polarity. Thus the iron is
+homogeneous, and its polarity symmetrical. If we now magnetize this rod
+to produce a strong south pole at its lower portion, we can gradually
+reverse this polarity, by the influence of earth's magnetism, by
+slightly tapping the upper extremity with a small wooden mallet. If
+we observe this rod by means of a direction needle at all parts, and
+successively during its gradual passage from one polarity to the other,
+there will be no sudden break into a haphazard arrangement, but a
+gradual and perfectly symmetrical rotation from one direction to that of
+the opposite polarity.
+
+If this rod is placed east and west, having first, say, a north polarity
+to the right, we can gradually discharge or rotate the molecules to
+zero, and as gradually reverse the polarity by simply inclining the rod
+so as to be slightly influenced by earth's magnetism; and at no portion
+of this passage from one polarity to neutrality, and to that of the
+opposite name, will there be found a break of continuity of rotation or
+haphazard arrangement. If we rotate this rod slowly, horizontally or
+vertically, taking observations at each few degrees of rotation of an
+entire revolution, we find still the same gradual symmetrical change
+of polarity, and that its symmetry is as complete at neutrality as in
+evident polarity.
+
+In all these cases there is no complete neutrality, the longitudinal
+polarity simply becoming transversal when the rod is east and west.
+F, G, H, I, J, Fig. 1, show this gradual change, H being neutral
+longitudinally, but polarized transversely. If, in place of the rod,
+we take a small square soft iron plate and allow its molecules freedom
+under the sole influence of the earth's magnetism, then we invariably
+find the polarity in the direction of the magnetic dip, no matter in
+what position it be held, and a sphere of soft iron could only be
+polarized in a similar direction Thus we can never obtain complete
+external neutrality while the molecules have freedom and do not form an
+internal closed circle of mutual attractions; and whatever theory we may
+adopt as to the cause of polarity in the molecule, such as Coulomb's,
+Poisson's, Ampere's, or Weber's, there can exist no haphazard
+arrangement in perfectly soft iron, as long as it is free from all
+external causes except the influence of the earth; consequently these
+theories are wrong in one of their most essential parts.
+
+We can, however, produce a closed circle of mutual attraction in iron
+and steel, producing complete neutrality as long as the structure is not
+destroyed by some stronger external directing influence.
+
+Oersted discovered that an external magnetic needle places itself
+perpendicular to an electric current; and we should expect that, if the
+molecules of an iron wire possessed inherent polarity and could rotate,
+a similar effect would take place in the interior of the wire to that
+observed by Oersted. Wiedermann first remarked this effect, and it has
+been known as circular magnetism. This circle, however, consists really
+in each molecule having placed itself perpendicular to the current,
+simply obeying Oersted's law, and thus forming a complete circle in
+which the mutual attractions of the molecules forming that circle are
+satisfied, as shown as C, Fig. 1. This wire becomes completely neutral,
+any previous symmetrical arrangement of polarity rotating to form its
+complete circle of attractions; and we can thus form in hard iron and
+steel a neutrality extremely difficult to break up or destroy. We have
+evident proof that this neutrality consists of a closed chain, or
+circle, as by torsion we can partially deflect them on either side; thus
+from a perfect externally neutral wire, producing either polarity, by
+simple mechanical angular displacement of the molecules, as by right or
+left handed torsion.
+
+If we magnetize a wire placed east and west, it will retain this
+polarity until freed by vibrations, as already remarked. If we pass an
+electric current through this magnetized wire, we can notice the gradual
+rotation of the molecules, and the formation of the circular neutrality.
+If we commence with a weak current, gradually increasing its strength,
+we can rotate them as slowly as may be desired. There is no sudden break
+or haphazard moment of neutrality: the movements to perfect zero are
+accomplished with perfect symmetry throughout.
+
+We can produce a more perfect and shorter circle of attractions by the
+superposition of magnetism, as at B, Fig. 1. If we magnetize a piece
+of steel or iron in a given direction with a strong magnetic directing
+power, the magnetism penetrates to a certain depth. If we slightly
+diminish the magnetizing power, and magnetize the rod in a contrary
+direction, we may reduce it to zero, by the superposition of an exterior
+magnetism upon one of a contrary name existing at a greater depth; and
+if we continue this operation, gradually diminishing the force at each
+reversal, we can easily superpose ten or more distinct symmetrical
+arrangements, and, as their mutual attractions are satisfied in a
+shorter circle than in that produced by electricity, it is extremely
+difficult to destroy this formation when once produced.
+
+The induction balance affords also some reasons for believing that the
+molecules not only form a closed circle of attractions, as at B, but
+that they can mutually react upon each other, so as to close a circle
+of attractions as a double molecule, as shown at A. The experimental
+evidence, however, is not sufficient to dwell on this point, as the
+neutrality obtained by superposition is somewhat similar in its external
+effects.
+
+We can produce a perfectly symmetrical closed circle of attractions of
+the nature of the neutrality of C, Fig. 3, by forming a steel wire into
+a closed circle, 10 centimeters in diameter, if this wire is well joined
+at its extremities by twisting and soldering. We can then magnetize this
+ring by slowly revolving it at the extremity of one pole of a strong
+permanent magnet; and, to avoid consequent poles at the part last
+touching the magnet, we should have a graduating wedge of wood, so that
+while revolving it may be gradually removed to greater distance. This
+wire will then contain no consequent points or external magnetism: it
+will be found perfectly neutral in all parts of its closed circle. Its
+neutrality is similar to C, Fig. 3; for if we cut this wire at any point
+we find extremely strong magnetic polarity, being magnetized by this
+method to saturation, and having retained (which it will indefinitely)
+its circle of attractions complete.
+
+I have already shown that soft iron, when its molecules are allowed
+perfect freedom by vibration, invariably takes the polarity of the
+external directing influence, such as that of the earth, and it does so
+even with greater freedom under the influence of heat. Manufacturers of
+electro-magnets for telegraphic instruments are very careful to choose
+the softest iron and thoroughly anneal it; but very few recognize the
+importance as regards the position of the iron while annealing it under
+the earth's directing influence. The fact, however, has long since been
+observed.
+
+Dr. Hooke, 1684, remarked that steel or iron was magnetized when heated
+to redness and placed in the magnetic meridian. I have slightly varied
+this experiment by heating to redness three similar steel bars, two
+of which had been previously magnetized to saturation, and placed
+separately with contrary polarity as regards each other, the third being
+neutral. Upon cooling, these three bars were found to have identical and
+similar polarity. Thus the molecules of this most rigid material, cast
+steel, had become free at red heat, and rotated under the earth's
+magnetic influence, giving exactly the same force on each; consequently
+the previous magnetization of two of these bars had neither augmented
+nor weakened the inherent polarity of their molecules. Soft iron gave
+under these conditions by far the greatest force, its inherent polarity
+being greater than that of steel.
+
+I have made numerous other experiments bearing upon the question of
+neutrality, but they all confirm those I have cited, which I consider
+afford ample evidence of the symmetrical arrangement of neutrality.
+
+
+SUPERPOSED MAGNETISM.
+
+Knowing that by torsion we can rotate or diminish magnetism, I was
+anxious to obtain by its means a complete rotation from north polarity
+to neutrality, and from neutrality to south polarity, or to completely
+reverse magnetic polarity by a slight right or left torsion.
+
+I have succeeded in doing this, and in obtaining strong reversal of
+polarities, by superposing one polarity given while the rod is under a
+right elastic torsion, with another of the opposite polarity given under
+a left elastic torsion, the neutral point then being reached when the
+rod is free from torsion. The rod should be very strongly magnetized
+under its first or right-hand torsion, so that its interior molecules
+are rotated, or, in other words, magnetized to saturation; the second
+magnetization in the contrary sense and torsion should be feebler, so
+as only to magnetize the surface, or not more than one-half its depth;
+these can be easily adjusted to each other so as to form a complete
+polar balance of force, producing, when the rod is free from torsion,
+the neutrality as shown at B, Fig. 1.
+
+The apparatus needed is simply a good compound horseshoe permanent
+magnet, 15 centimeters long, having six or more plates, giving it a
+total thickness of at least 3 centimeters. We need a sufficiently
+powerful magnet, as I find that I obtain a more equal distribution of
+magnetism upon a rod or strip of iron by drawing it lengthwise over a
+single pole in a direction from that pole, as shown in Fig. 2; we can
+then obtain saturation by repeated drawings, keeping the same molecular
+symmetry in each experiment.
+
+In order to apply a slight elastic torsion when magnetizing rods or
+wires, I have found it convenient to attach two brass clamp keys to the
+extremities of the rods, or simply turn the ends at right angles, as
+shown in the following diagram, by which means we can apply an elastic
+twist or torsion while drawing the rod over the pole of the permanent
+magnet. We can thus superpose several and opposite symmetrical
+structures, producing a polar north or south as desired, greatly in
+excess of that possible under a single or even double magnetization, and
+by carefully adjusting the proportion of opposing magnetisms, so that
+both polarities have the same external force, the rod will be at perfect
+external neutrality when free from torsion.
+
+[Illustration: FIG. 2.]
+
+If we now hold one end of this rod at a few centimeters distance from
+a magnetic directive needle, we find it perfectly neutral when free
+of torsion, but the slightest torsion right or left at once produces
+violent repulsion or attraction, according to the direction of the
+torsion given to the rod, the iron rod or strips of hoop-iron which
+I use for this experiment being able, when at the distance of five
+centimeters from the needle, to turn it instantly 90 deg. on either side of
+its zero.
+
+The external neutrality that we can now produce at will is absolute, as
+it crosses the line of two contrary polarities, being similar to the
+zero of my electric sonometer, whose zero is obtained by the crossing of
+two opposing electric forces.
+
+This rod of iron retains its peculiar powers of reversal in a remarkable
+degree, a condition quite different to that of ordinary magnetization,
+for the same rod, when magnetized to saturation under a single ordinary
+magnetism, loses its evident magnetism by a few elastic torsions, as I
+have already shown; but when it is magnetized under the double torsion
+with its superposed magnetism, it is but slightly reduced by variations
+or numerous torsions, and I have found it impossible to render this
+rod again free from its double polar effects, except by strongly
+remagnetizing it to saturation with a single polarity. The superposed
+magnetism then becomes a single directive force, and we can then by a
+few vibrations or torsions reduce the rod to its ordinary condition.
+
+The effects of superposed magnetism and its double polarity I have
+produced in a variety of ways, such as by the electro-magnetic influence
+of coils, or in very soft iron simply by the directive influence of
+the earth's magnetism, reversing the rod and torsions when held in
+the magnetic meridian, these rods when placed magnetic west showing
+distinctly the double polar effects.
+
+It is remarkable, also, that we are enabled to superpose and obtain
+the maximum effects on thin strips of iron from 1/4 to 1/2 millimeter in
+thickness, while in thicker rods we have far less effect, being masked
+by the comparatively neutral state of the interior, the exterior
+molecules then reaching upon those of the interior, allowing them to
+complete in the interior their circle of attractions.
+
+I was anxious to obtain wires which would preserve this structure
+against the destructive influence of torsion and vibrations, so that I
+could constantly employ the same wires without the comparatively long
+and tedious process of preparation. Soft iron soon loses the structure,
+or becomes enfeebled, under the constant to and fro torsions requisite
+where we desire a constant change of polarity, as described later in the
+magnetic bells. Hard steel preserves its structure, but its molecular
+rigidity is so great that we obtain but mere traces of any change of
+polarity by torsion. I have found, however, that fine cast drill steel,
+untempered, of the kind employed by watchmakers, is most suitable;
+these are generally sold in straight lengths of 30 centimeters. Wires
+1 millimeter in diameter should be used, and when it is desired to
+increase the force, several of these wires, say, nine or ten, should be
+formed into a single rod or bunch.
+
+The wire as sold is too rigid to give its maximum of molecular rotation
+effect. We must therefore give it two entire turns or twists to the
+right, and strongly magnetize it on the north pole of the magnet while
+under torsion. We must again repeat this operation in the contrary
+direction, after restoring the wire to its previous position, giving now
+two entire turns to the left and magnetizing it on the south pole. On
+restoring the wire to its original place, it will be extremely flexible,
+and we may now superpose several contrary polarities under contrary
+torsions, as already described.
+
+The power of these wires, if properly prepared, is most remarkable,
+being able to reverse their polarity under torsion, as if they were
+completely saturated; and they preserve this power indefinitely if not
+touched by a magnet. It would be extremely difficult to explain the
+action of the rotative effects obtained in these wires under any other
+theory than that which I have advanced; and the absolute external
+neutrality that we obtain in them when the polarities are changing, we
+know, from their structure, to be perfectly symmetrical.
+
+I was anxious to show, upon the reading of this paper, some mechanical
+movement produced by molecular rotation, consequently I have arranged
+two bells that are struck alternately by a polarized armature put in
+motion by the double polarized rod I have already described, but whose
+position, at three centimeters distant from the axis of the armature,
+remains invariably the same. The magnetic armature consists of a
+horizontal light steel bar suspended by its central axle; the bells are
+thin wine glasses, giving a clear musical tone loud enough, by the force
+with which they are struck, to be clearly heard at some distance. The
+armature does not strike these alternately by a pendulous movement, as
+we may easily strike only one continuously, the friction and inertia of
+the armature causing its movements to be perfectly dead beat when not
+driven by some external force, and it is kept in its zero position by a
+strong directive magnet placed beneath its axle.
+
+The mechanical power obtained is extremely evident, and is sufficient to
+put the sluggish armature in rapid motion, striking the bells six times
+per second, and with a power sufficient to produce tones loud enough to
+be clearly heard in all parts of the hall of the Society. As this is
+the first direct transformation of molecular motion into mechanical
+movement, I am happy to show it on this occasion.
+
+There is nothing remarkable in the bells themselves, as they evidently
+could be rung if the armature was surrounded by a coil, and worked by an
+electric current from a few cells. The marvel, however, is in the small
+steel superposed magnetic wire producing by slight elastic torsions from
+a single wire, one millimeter in diameter, sufficient force from mere
+molecular rotation to entirely replace the coil and electric current.
+
+
+ELASTIC NATURE OF THE ETHER SURROUNDING THE MAGNETIC MOLECULES.
+
+During these researches I have remarked a peculiar property of
+magnetism, viz., that not only can the molecules be rotated through any
+degree of arc to its maximum, or saturation, but that, while it requires
+a comparatively strong force to overcome its rigidity or resistance to
+rotation, it has a small field of its own through which it can move with
+excessive freedom, trembling, vibrating, or rotating through a small
+degree with infinitely less force than would be required to rotate it
+permanently on either side. This property is so marked and general that
+we can observe it without any special iron or apparatus.
+
+Let us take a flat rod of ordinary hoop iron, 30 or more centimeters
+in length. If, while holding this vertically, we give freedom to its
+molecules by torsions, vibrations, or, better still, by a few blows with
+a wooden mallet upon its upper extremity, we find, as is well known,
+that its lower portion is strongly north, and its upper south. If we
+reverse this rod, we now find it neutral at both extremities. We might
+here suppose that the earth's directing force had rotated the molecules
+to zero, or transversely, which in reality it has done, but only to the
+limit of their comparatively free motion; for if we reverse the rod to
+its original position, its previous strong polarity reappears at both
+extremities, thus the central point of its free motion is inclined to
+the rod, giving by its free motion great symmetrical inclination and
+polarity in one direction, but when reversed the inclination is reduced
+to zero.
+
+In Fig. 3, D shows the bar of iron when strongly polarized by earth's
+magnetic influence, under vibrations, with a sufficient force to have
+rotated its elastic center of action. C shows the same bar with its
+molecules at zero, or transversal, the directing force of earth being
+insufficient without the aid of mechanical vibration to allow them to
+change. The dotted lines of D suppose the molecule to be in the center
+of its free motion, while at C the molecules have rotated to zero, as
+they are prevented from further rotation by being at the extreme end of
+its free motion.
+
+If, now, we hold the rod vertically, as at C, giving neutrality, and
+give a few slight blows with a wooden mallet to its upper extremity, we
+can give just the amount of freedom required for it to produce evident
+polarity, and we then have equal polarity, no matter which end of the
+bar is below, the center of its free rotation here being perfect, and
+the rod perfectly neutral longitudinally when held east and west. If, on
+the other hand, we have given too much freedom by repeated blows of the
+mallet, its center of free motion becomes inclined with the molecules,
+and we arrive at its first condition, except that it is now neutral at
+D and polarized at C. From this it will be seen that we can adjust
+this center of action, by vibrations or blows, to any point within the
+external directing influence.
+
+[Illustration: FIG. 3.]
+
+We can perceive this effect of free rotation in a limited space in all
+classes of iron and steel, being far greater in soft Swedish iron than
+in hard iron or steel. A similar phenomenon takes place if we magnetize
+a rod held vertically in the direction of earth's magnetism. It
+then gives greater polarity than if magnetized east or west, and if
+magnetized in a contrary sense to earth's magnetism, it is very feebly
+magnetized, or, if the rod is perfectly soft, it becomes neutral after
+strong magnetization. This property of comparative freedom, and the
+rotation of its center of action, can be demonstrated in a variety of
+ways. One remarkable example of it consists in the telephone. All those
+who are thoroughly acquainted with electro-magnetism, and know that
+it requires measurable time to charge an electro-magnet to saturation
+(about one-fifteenth of a second for those employed in telegraphy),
+were surprised that the telephone could follow the slightest change of
+timbre, requiring almost innumerable changes of force per second. I
+believe the free rotation I have spoken of through a limited range
+explains its remarkable sensitiveness and rapidity of action, and,
+according to this view, it would also explain why loud sounding
+telephones can never repeat all the delicacy of timbre that is easily
+done with those only requiring a force comprised in the critical limits
+of its free rotation. This property, I have found, has a distinct
+critical value for each class of iron, and I propose soon to publish
+researches upon the molecular construction of steel and iron, in which
+I have made use of this very property as a guide to the quality of the
+iron itself.
+
+The elastic rotation (in a limited space) of a molecule differs entirely
+from that known as mechanical elasticity. In perfectly soft iron we have
+feeble _mechanical_ elasticity, while in tempered steel we have
+that elasticity at its maximum. The contrary takes place as regards
+_molecular_ elasticity. In tempered steel the molecules are extremely
+rigid, and in soft iron its molecular elasticity is at its maximum. Its
+free motion differs entirely from that given it by torsion or stress. We
+may assume that a molecule is surrounded by continuous ether, more of
+the nature of a jelly than of that of a gas; in such a medium a molecule
+might freely vibrate through small arcs, but a rotation extending beyond
+its critical limit would involve a much greater expenditure of force.
+
+The discovery of this comparatively free rotation of molecules, by means
+of which, as I have shown, we can (without in any degree disturbing the
+external mechanical elasticity of the mass) change the axes of their
+free motion in any direction desired, has led me into a series of
+researches which have only indirectly any relation with the theory of
+magnetism. I was extremely desirous, however, of finding an experimental
+evidence which in itself should demonstrate all portions of the theory,
+and the following experiment, I believe, answers this purpose.
+
+Let us take a square soft iron rod, five millimeters in diameter by
+thirty or more centimeters in length, and force the molecules, by aid
+of blows from a wooden mallet, as previously described, to have their
+centers of free motion in one direction; the rod will (as already shown)
+have polarity at both ends, when held vertically; but if reversed, both
+ends become completely neutral.
+
+If now we turn the rod to its first position, in which it shows strong
+polarity, and magnetize it while held vertically, by drawing the north
+pole of a sufficiently powerful permanent magnet from its upper to its
+lower extremity, we find that this rod, instead of having south polarity
+at its lower portion, as we should expect from the direction of the
+magnetization, is completely neutral at both extremities, but if we
+reverse the rod its fullest free powers of magnetization now appear in
+the position where it was previously neutral. Thus, by magnetization, we
+have completely rotated its free path of action, and find that we can
+rotate this path as desired in any direction by the application of a
+sufficient directing power.
+
+If we take a rod as described, with its polarities evident when held
+vertically, and its neutrality also evident when its ends are reversed
+in the same magnetic field, we find that its polarity is equal at both
+ends, and that it is in every way symmetrical with a perfect magnet. If
+we _gradually_ reverse the ends and take observations of its condition
+through each degree of arc passed over, we find an equal symmetrical
+diminution of evident external polarity, until we arrive at neutrality,
+when it has no external trace of inherent polarity; but its inherent
+polarity at once becomes evident by a simple return to its former
+position. Thus the rod has passed through all the changes from polarity
+to neutrality, and from neutrality to polarity, and these changes have
+taken place with complete symmetry.
+
+The limits of this paper do not allow me to speak of the numerous
+theoretical evidences as shown by the use of my induction balance. I
+believe, however, that I have cited already experimental evidences to
+show that what has been attributed to coercive force is really due to
+molecular freedom or rigidity; that in inherent molecular polarity we
+have a fact admitted by Coulomb, Poisson, Ampere, De la Rive, Weber,
+Du Moncel, Wiedermann, and Maxwell; and that we have also experimental
+evidence of molecular rotation and of the symmetrical character of
+polarity and neutrality.
+
+The experiments which I have brought forward in this paper, in addition
+to those mentioned in my paper read before the Royal Society, will,
+I hope, justify me in having advanced a theory of magnetism which I
+believe in every portion allows at least experimental evidences of its
+probable truth.
+
+       *       *       *       *       *
+
+
+
+
+THE WESTINGHOUSE BRAKE.
+
+
+Below we illustrate the main parts of the Westinghouse brake as applied
+to a vehicle. The supplementary reservoir brake cylinder and triple
+valve are shown in position, and as fitted upon the engine, tender, and
+each vehicle of the train. Air compressed by a pump on the locomotive
+to, say, 70 lb. or 80 lb. to the square inch fills the main reservoir on
+the engine, and flowing through the driver's brake valve and main pipe,
+also charges the supplementary reservoirs throughout the train. When
+a train is running, uniform air pressure exists throughout its
+length--that is to say, the main reservoir on the engine, the pipe from
+end to end of train, the triple valves and supplementary reservoirs on
+each vehicle, are all charged ready for work, the brake cylinders being
+empty and the brakes off. The essential principle of the system is,
+that maintaining the pressure keeps the brakes off, but letting the air
+escape from the brake pipe, purposely or accidentally, instantly applies
+them. It follows, therefore, that the brake may be applied by the driver
+or any of the guards, or if necessary by a passenger, by the separation
+of a coupling, or the failure or injury to a vital part of the
+apparatus, whether due to an accident to the train or to the brake; and
+as the brake on each vehicle is complete in itself and independent,
+should the apparatus on any one carriage be torn off, the brake will
+nevertheless remain applied for almost any length of time upon the rest
+of the train.
+
+The triple valve, as will be seen, is simply a small piston, carrying
+with it a slide valve, which can be moved up or down by increasing or
+decreasing the pressure in the brake pipe. As soon as the air from the
+main reservoir is turned into the brake pipe, by means of the driver's
+valve, the piston is pushed up into the position shown, and air is
+allowed to feed past it through a small groove into the reservoir. At
+the same time the slide valve covers the port to the brake cylinder, and
+is in such a position that the air from the latter may exhaust into the
+atmosphere. The piston has now the same air pressure on both sides; but
+if the pressure in the brake pipe is decreased, the piston and slide
+valve are forced down, thereby uncovering the passage through which air
+from the reservoir flows into the brake cylinder between the pistons,
+thus applying the brakes. The brake pipe is shut off as soon as the
+triple valve piston passes the groove. To release the brakes, the piston
+and slide valves are again moved into the position shown, by the driver
+turning air from the main reservoir into the brake pipe. The air in the
+brake cylinder escapes, and at the same time the reservoir is recharged.
+
+[Illustration: THE WESTINGHOUSE BRAKE.]
+
+Fig. 2 represents two Westinghouse couplings connected. They are exactly
+alike in all respects, and an air tight joint is made between them by
+means of the rubber washers. These couplings are so constructed that the
+air pressure within serves to tighten the joint, and they may be pushed
+apart by the separation of the train without any injury. Such an
+occurrence as already explained leads to the instant application of all
+the brakes on the train.
+
+By closing the small tap shown between the brake pipe and the triple
+valve, the brake on any vehicle, if out of order, can be cut out of the
+system. A release valve is also placed upon each cylinder as shown, so
+that in the event of the brakes being applied by the separation of
+the train, or the breaking of a pipe, or when the locomotive is not
+attached, they can be released by allowing the air to escape from each
+brake cylinder direct. The Westinghouse brake has been made to comply
+thoroughly with the Board of Trade conditions. Many people, however, do
+not appear to understand all that is involved in the second requirement,
+which runs as follows: In case of accident, to be instantaneously
+self-acting. This clearly implies: First, that accident to the train,
+or to any of its vehicles, shall cause the instant application of
+the brakes to the wheels of every vehicle in the train without the
+intervention of the driver or guards. Secondly, that any injury, however
+caused, which may impair the efficiency of the brake apparatus, shall,
+in like manner, lead to the instant application of all the brakes on
+the train. It then becomes impossible for a driver to run his train in
+ignorance of any defect in his brake apparatus because such defect at
+once discloses itself by applying the brakes and stopping the train.
+Thirdly, that each vehicle shall carry its own brake power in such a
+manner that the destruction of the brake apparatus on one or more of the
+carriages shall not affect the efficiency of the brakes upon any of the
+others. No continuous brake which does not comply with such conditions
+can ever be satisfactory.--_The Engineer_.
+
+       *       *       *       *       *
+
+
+
+
+HYDRAULIC ELEVATORS AND MOTORS.
+
+[Footnote: Read at Buffalo meeting of the American Water-Works
+Association May 15,1883.]
+
+By B. F. JONES, Kansas City.
+
+
+What I have to say in relation to elevators and motors will be mostly in
+regard to questions that their uses necessarily bring up for settlement
+at the water-works office; also to show how I have been able in a
+measure to overcome some of the many difficulties that have presented
+themselves, as well as to discuss and seek information as to the best
+way of meeting others that still have to be dealt with. At the outset,
+therefore, let me state that I am not an hydraulic engineer, nor have
+I sufficient mechanical knowledge to undertake the discussion of the
+construction or relative merits of either elevators or motors. This I
+would respectfully suggest as a very proper and interesting topic for a
+paper at some future meeting by some one of the many, eminent engineers
+of this association.
+
+The water-works of Kansas City is comparatively young, and my experience
+only dates back six or seven years, or shortly after its completion.
+At this time it was deemed advisable on account of the probable large
+revenue to be derived from their use, to encourage the putting in of
+hydraulic elevators by low water rates. With this end in view a number
+of contracts were made for their supply at low special rates for a
+period of years, and our minimum meter rate was charged in all other
+cases, regardless of the quantity of water consumed. In most instances
+these special rates have since been found much too low, parties paying
+in this way being exceedingly extravagant in the use of elevators.
+However, the object sought was obtained, and now they are very
+extensively used. In fact, so much has their use increased, that the
+question is no longer how to encourage their more general adoption, but
+how to properly govern those that must be supplied. A present our works
+furnish power to about 15 passenger and 80 freight elevators, and the
+number is rapidly increasing.
+
+Before going into details it seems proper to give at least a brief
+description of our water-works, as my observations are to a great extent
+local.
+
+On account of the peculiar topography of Kansas City (and I believe it
+has more topography to the square foot than any city in the country)
+two systems of water supply have been provided, the high ground being
+supplied by direct pumping, and a pressure of about 90 pounds maintained
+in the business portion, and the lower part of the city being supplied
+by gravity, from a reservoir at an elevation of 210 feet, thus giving
+the business portions of the city, on high and low ground, about the
+same pressure. By an arrangement of valves, a combination of these
+two systems is effected, so that the Holly machinery can furnish an
+increased fire pressure at a moment's notice, into either or both pipe
+systems. Thus at some points the pressure is extremely high during the
+progress of fires, causing difficulties that do not exist where the
+gravity system of works is used exclusively.
+
+Elevators have become an established institution, and in cities of any
+commercial importance are regarded as a necessity, hotels, jobbing
+houses, factories, and office buildings being considered as far behind
+the times when not thus provided, as a city without a water supply or a
+community without a "boom." The use of elevators has made it practicable
+and profitable to erect buildings twice as high as were formerly thought
+of. Perhaps some of the most notable examples of this are in New York
+city, where such structures as the Mills building, the buildings of the
+_Tribune, Evening Post_, and Western Union Telegraph Co.. tower high
+above the surrounding blocks, monuments of architecture, that without
+this modern invention would reflect little credit upon their designers.
+It is now found less labor to go to to the fifth, sixth, or even tenth
+floors of these great buildings than it was to reach the second or
+third, before their use. In these days, merchants can shoot a ton of
+goods to the top of their stores in less time than it would take to get
+breath for the old hoist or "Yo, heave O" arrangement. Thousands of
+dollars are sometimes expended on a single elevator, the cars are
+miniature parlors, and the mechanism has perhaps advanced to nearly the
+perfection of the modern steam engine. If then they have become such a
+firmly established institution, their bearing upon the water supply of
+cities is a subject to be carefully considered.
+
+As before intimated, there are many questions involved in the use of
+hydraulic elevators, that particularly concern towns supplied by direct
+pumping, and perhaps other places where the supply by gravity is
+somewhat limited. In a few larger cities supplied by ample reservoirs
+and mains, some of the difficulties suggested are not serious. Very
+little power is necessary to perform the actual work of lifting, with
+either steam or hydraulic elevators, but on account of the peculiar
+application of the power, and the great amount of friction to be
+overcome, a very considerable power has to be provided. It has been
+estimated, by good authorities, that not more than one-quarter of the
+power expended in most cases is really utilized.
+
+With all hydraulic elevators of which I have cognizance, as much water
+is required to raise the empty cars as though they were loaded to
+maximum capacity. Still, to be available for passenger purposes
+elevators must have capacity of upward of 2,500 pounds, particularly in
+hotels, where the cars are often arranged with separate compartments
+underneath for baggage. In general use it is exceptional that passenger
+elevators are fully loaded; on the contrary less than half a load is
+ordinarily carried, and for this reason it would appear that no actual
+benefit is derived from at least one-half of the water consumed. In this
+connection it has occurred to me that passenger elevators could be built
+at no great additional cost, with two cylinders, small and large, the
+two piston rods of which could be connected so as to both operate the
+same cable, either or both furnishing power, the smaller cylinder to be
+used for light loads, the larger for heavy work, and the two together
+for full capacity, this independent valve arrangement to be controlled
+by a separate cable running through the car. Whether this plan is
+practicable or not must be left to elevator manufacturers, but it seems
+to me that with the Hale-Otis elevator for instance (which is conceded
+to be one of the best) it could easily be accomplished. Certainly some
+such arrangement would effect a great saving of water, and perhaps bring
+water bills to a point that this class of consumers could afford to pay.
+
+Hydraulic elevators where the water is used over and over again, by
+being pumped from the discharge to elevated tanks, cut little or no
+figure in connection with a city's water supply. When fuel, first cost,
+attendance of an engineer, and the poor economy of the class of pumps
+usually employed to perform this work are considered, the cost of
+operating such elevators is greatly in excess of what it would be if
+power were supplied direct from water mains, at any reasonable rate. The
+following remarks will then relate almost exclusively to that class of
+hydraulic elevators supplied with power directly from the water mains.
+
+Let us now consider whether they are a desirable source of revenue, and
+in this my knowledge does not exceed my actual experience. Few elevator
+users appreciate the great quantity of water their elevators consume.
+Even in Kansas City, where, on account of the high pressure carried,
+much smaller cylinders than ordinarily are required, it is found that
+passenger elevators frequently consume 500,000 to 800,000 gallons of
+water per month, which will make a very considerable bill, at the most
+liberal rates. I have, therefore, concluded that the quantity of water
+was so large that, unless liberal concessions were made, it would be a
+hardship to consumers to pay their water bills, and have therefore made
+a special schedule, according to quantity, for elevators and motors,
+these rates standing below our regular meter rates, and running to the
+lowest point at which we think we can afford to furnish the water. This
+schedule brings the rate below what we would receive for almost any
+other legitimate use of water; and, in view of our rapidly increasing
+consumption, and the probability of soon having to increase all our
+facilities, it is an open question whether this will continue a
+desirable source of revenue.
+
+In Kansas City we have elevators of various manufacture: the Hale-Otis,
+Ready, Smith & Beggs, O'Keefe, Kennedy, and perhaps others, each having
+its peculiarities, but alike demanding large openings in the mains
+for supply. These large openings are objectionable features with any
+waterworks, and especially so with direct pumping. An occurrence from
+this cause, about two years ago, is an experience I should not like
+repeated, but is one that might occur whenever the pressure in the mains
+is depended upon to throw fire streams. In this instance a large block
+of buildings occupied by jobbing houses and having three elevators was
+burned down, and the elevator connections broken early in the fire,
+allowing the water to pour into the cellars in the volume of about
+twelve ordinary fire streams. This immense quantity of water had to be
+supplied from a 6-inch main, fed from only one end, which left little
+pressure available for fighting the fire, and as a matter of course
+failure to subdue the fire promptly was attributed to the water-works.
+We have since had up hill work to restore confidence as to our ability
+to throw fire streams, although we have demonstrated the fact hundreds
+of times since.
+
+From this time we have been gradually cutting down on the size of
+openings for elevator supply, but under protest of the elevator agents,
+who have always claimed that they should be allowed at least a 4-inch
+opening in the mains, until we have found that under 80 to 90 pounds
+pressure two to four 1-inch taps will answer the purpose, provided the
+water pipes are of ample size.
+
+The "water hammer" produced by the quick acting valves of elevators has
+always been objectionable, both in its effect at the pumping-house
+and upon water mains and connections. To obviate this, Engineer G. W.
+Pearson has suggested the use of very large air chambers on the elevator
+supply, and still smaller openings in the mains, his theory being that
+the air chambers would not only materially decrease the concussion or
+"water hammer," but that they would also act as accumulators of power
+(or water under pressure) to be drawn from at each trip of the elevator,
+and replaced when it was at rest. This plan I have never seen put to
+actual test, but believe it to be entirely practicable, and that we will
+have to ultimately adopt it.
+
+All things considered, the plan of operating elevators from tanks in
+the top of buildings, supplied by a small pipe connected with the
+water-mains and arranged with a float valve to keep the tank filled, I
+believe to be the best manner of supply, except for the great additional
+cost of putting up such apparatus. By this arrangement the amount of
+water consumed is no less, in fact it would ordinarily be more than with
+a direct connection with the mains, but it has the advantage of taking
+the water in the least objectionable manner. Still, if this mode of
+supply were generally enforced, the large first cost, an additional
+expense of operating, would undoubtedly deter many from using elevators.
+
+Another evil in connection with the use of elevators, and which no doubt
+is common, is the habit many parties have of keeping a key or wrench to
+turn on and off the water at the curb. This we have sought to remedy
+by embracing in our plumbers' rules the following: "All elevator
+connections in addition to the curb stop for the use of the Water
+Company must be provided with another valve where the pipe first enters
+the building for the use of occupants of the building." Without this
+extra valve it was found almost impossible to keep parties from using
+the curb valve. In most cases the persons were perfectly responsible,
+and as there was no intent to defraud the company by the act, they would
+claim this privilege as a precaution against the pipes bursting or
+freezing. This practice was very generally carried on, and was the
+direct cause in at least two cases of very serious damage. In the
+instances referred to, the pipes burst between the elevator and the
+area wall of buildings, and the valves outside had become so worn
+from frequent use that they would not operate, allowing the water to
+literally deluge the basements before the water main could be turned
+off.
+
+One of the greatest causes of waste from elevators is the wearing out of
+the piston packing, this being particularly troublesome in most of the
+Western cities, where the water supplied is to a large extent from
+turbid streams, carrying more or less fine sand or "grit," which cuts
+out the packing of the pistons very rapidly. The only practicable remedy
+for this is close inspection, to see that the pistons do not allow water
+to pass, a fact that can readily be determined from the noise made in
+the cylinder when the elevator is in motion going upward.
+
+I have reserved one of the most annoying features of elevator supply for
+the last, hoping to work myself into a mood to do the subject justice,
+but doubt if it can be done in language proper to use before this
+dignified body. I remember on one occasion the mayor of our city, in
+discussing a job of plumbing, said that it seemed to him "that even a
+plumber ought to know something about plumbing." Now it would seem that
+even elevator agents ought to know something about elevators, but from
+the following incident, which is but one of many, I am led to believe
+that they are not infallible to say the least. Only a short time since,
+one of these very reliable (?) agents reported at our office that he had
+just attached a new indicator to the elevator of a leading hotel. He was
+asked: "What does it register?" and promptly replied, "Cubic feet."
+In this case our inspector had already made an examination, and had
+correctly reported as follows: "Hale elevator; indicator started at zero
+February 28; internal diameter of cylinder, 12 inches; travel of piston
+for complete trip 301/4 feet; indicator registers for complete trip, 4."
+
+When it is understood that we had for a long time been assuming that
+elevator agents knew about all there was to know on the subject, a
+comparison of statements of this agent and our inspector is somewhat
+startling. Now let us see what the difference amounted to: At the end of
+the month the indicator had registered 12,994; calling it cubic feet,
+this register would equal 97,195 gallons. According to our inspector,
+this same register would equal 578,233 gallons, or a difference of
+nearly half a million of gallons for a single month. Our experience with
+the agents in Kansas City has shown that they will, if allowed, put any
+kind of an indicator on the most convenient point of any sort of an
+elevator, without the slightest regard as to what it was intended to
+indicate; then report it as registering cubic or lineal feet, whichever
+they find the indicator marked. On the same principle they could as
+well change the fulcrum of a Fairbanks scale, and then claim it weighed
+pounds correctly, because pounds were marked upon the bar. We have
+lately prepared a blank, upon which these agents are required to make a
+detailed report upon the completion of an elevator before the water
+will be turned on, which it is hoped will to some extent correct this
+trouble.
+
+I have come to regard an elevator indicator with a feeling of wonder.
+Some years ago, when the "planchette" first came out, I remember that
+it acquired quite a reputation as a particularly erratic piece of
+mechanism, but for real mystery and _innate cussedness_, on general
+principles, commend me to the indicator. Why, I have known an indicator
+after registering a nice water bill, to deliberately and without
+provocation commence taking it all off again, by going backward. This
+crab-like maneuver the agent readily explained by saying the "ratchet
+had turned over," but even he was unable to show us how to make the
+bills after these peculiar gyrations. I also find that it is quite a
+favorite amusement for indicators to stop entirely, like a balky horse,
+after which no amount of persuasion will bring them to a realizing sense
+of their duty.
+
+Even at the best, these indicators are very apt to get out of order,
+necessitating greater watchfulness in supplying elevators than for any
+other purpose for which water is furnished.
+
+Accidents in connection with the use of elevators are common throughout
+the country, and in Kansas City had, until within a short time, become
+of altogether too frequent occurrence. The great cause of this I believe
+to be due to the fact that the parties who usually operate elevators
+are the very ones who know least about them; the corrosion of pistons,
+crystallization and oxidation of cables, and many other disorders common
+to elevators, being matters they do not comprehend. The frequency
+and fatality of these accidents in Kansas City finally led the city
+authorities to appoint an Elevator Inspector, who is under heavy bond,
+and whose duty is to examine every elevator at least once a month, and
+to grant license to run only such as he deems in safe condition. Thus
+far since the establishment of this office we have had no serious
+accidents, which leads me to the belief that in most cases a monthly
+examination will discover in time the causes of many terrible
+casualties; also that it is not safe to operate elevators unless so
+inspected by some competent person.
+
+The hatchways of elevators in large buildings are points greatly feared
+by firemen. They well know that when a fire once reaches this shaft, it
+takes but a moment for it to be carried from floor to floor, until the
+building is soon past saving. Although this great danger is well known,
+it is the exception rather than the rule to provide elevators with
+fire-proof hatches. A properly constructed elevator should, it seems
+to me, be provided with hatches, or better still, built within brick
+fire-proof walls, with openings to be kept closed when not in use. In
+this way costly buildings, valuable merchandise, and many lives would be
+saved from fire every year.
+
+Although considerable has been said on the subject of elevators, I am
+aware that the ground has not been covered, and that difficulties have
+been pointed out more than remedies suggested. There is much yet to be
+brought out by the engineers, to whom the subject more properly belongs.
+
+In the mean time, although elevators claim many of the objectionable
+features in the business of water supply, most of them are not of a
+nature that should condemn their use; on the contrary, I hope that
+with the joining of our experience there will be an improvement in the
+methods of their supply. Inasmuch as they must be furnished with water,
+all that can be done is to adopt such rules and fix such rates as will
+compensate in some degree for their objectionable qualities.
+
+
+WATER MOTORS.
+
+My remarks on this subject I trust will be more to the have been point
+than they upon the questions already discussed. Certainly my ideas are
+more decided, so far at least as supplying water motors is concerned.
+
+In many respects I believe water motors furnish as nearly perfect power
+as it is possible to attain. A motor, for instance, properly connected
+and supplied by the even pressure from a reservoir is probably the most
+reliable and steady power known, not excepting the most improved and
+costly steam engines. The convenience and little attendance necessary in
+operating make them especially desirable for many purposes. Where only
+small power is required, or even where considerable power for only
+occasional use is desired, they are particularly well adapted, and
+can be driven at small expense. Even for greater power they possess
+advantages over steam engines which, to a considerable extent,
+compensate for the large water rates that ought to be paid for their
+supply. These advantages are in the first cost of a motor, as compared
+with a steam engine, the saving in attendance and fuel, the convenience
+and cleanliness, and in some cases a saving in insurance by reason of
+their being no fire risks attendant upon its use. At just what point
+steam becomes preferable, however, is a question depending considerably
+upon water rates, but to some extent on other circumstances, leaving
+it largely a question of judgment. As with elevators, there are
+difficulties involved in their supply that unless carefully guarded make
+water motors anything but a desirable source of revenue. How often is
+the argument advanced: "Why, I only use water for a quarter of an inch
+jet!" Showing how little people who use motors or elevators or fountains
+realize the quantity of water they consume. This class of consumers may
+be placed on one footing, to wit, a class who, in spite of the fact that
+they are supplied with water for much less than any other, feel that
+they are imposed upon, and cannot be made to think otherwise.
+
+Though not as large as for elevator supply, water motors require liberal
+openings in the mains, and frequently the fault of having too small
+supply pipes is sought to be remedied by openings in the water mains
+much larger than needful. A table prepared by an engineer who had given
+the matter study, or by some motor manufacturer, showing the size of
+taps, or openings, for the proper supply of motors, with the various
+jets, under different pressures, would be of general use to water-works
+people. In order to use water to the best advantage, the full pressure
+in the main, so far as practicable, should be had at the jet, but in
+order to accomplish this it is not necessary to use as large taps as are
+ordinarily demanded, but to provide supply pipes of sufficient capacity
+to deliver the water to the point of discharge with the least possible
+friction. Lately this theory has been put in practice to some extent by
+us, and the result has shown that in this manner we are able to supply
+motors through smaller taps than beforehand with as satisfactory
+results.
+
+It is a general practice throughout the country to make annual or
+monthly rates for water motors, and from my observation I believe I can
+safely venture the assertion that in three-quarters of the cases the
+rates charged will not equal 50 per cent. of the lowest meter rates in
+force in these places. Although the Kansas City Water-Works has not
+perhaps been generally accorded the reputation of being the most liberal
+"monopoly" in the country, still I have had occasion at times to make
+some such claims as an inducement to its generous support. But with all
+its liberality, I am free to say that we cannot begin to meet the rates
+for motors that parties claim to have paid almost everywhere else.
+
+The St. Louis Water-Works, where the rates are substantially the same as
+in Kansas City, have been quoted as having the following motor rates,
+but whether correct or not my inquiries have failed to determine:
+
+"On the supposition that motors are to be used ten hours per day for 300
+days per year, motors are assessed for--
+
+  ___________________________________
+    1/4 inch jets | $120 per annum. |
+    3/8  "        |  198  "   "     |
+    1/2  "        |  300  "   "     |
+  ----------------+-----------------+
+
+These rates based upon a charge of 50 cents per 1,000 gallons."
+
+From Col. Flad's Report as Engineer of Public Works, May 1, 1876, p.70,
+it is found that with 42 pounds pressure a 1/2 inch orifice will discharge
+2,160 gallons per hour, 21,600 gallons in 10 hours, or 6,480,000 gallons
+in 300 days, which at 20 cents per 1,000 gallons would amount to $1,296,
+for which they assess the rate $300. From all of which I would conclude
+that there must be a lack of harmony somewhere between the engineering
+and office departments.
+
+I have made some estimates myself for water motors, basing rates upon
+the number of hours it was claimed the motors would be in use, and
+afterward supplied the same motors by meter measurement; in every case
+found that at least twice as much water was used as had been estimated.
+Although estimates were carefully made upon what was believed to be
+a reliable basis, these repeated similar results have led me to the
+conclusion that the only way to supply motors is to make it an object to
+the users of them to be economical. In other words, I believe the way to
+supply water motors is upon an estimate that they will run 24 hours per
+day and 365 days per year, or, more properly still, supply them only by
+meter measurement. At all events this is henceforth my policy; or, in
+other words, "on this rock I stand," believing it the only equitable way
+out of this difficulty.
+
+That class of motors or water engines operated by water pressure in
+close cylinders upon pistons as with steam in a steam engine, I believe
+could be easily supplied by measurement of water without a meter. This
+could be accomplished by the use of "revolution counters" or indicators,
+as the amount of water required per revolution could be readily
+determined, and when once computed the cylinders would measure out the
+water as accurately as a meter. The only objection to this plan is the
+expense of counters, which is considerable; and as to indicators, it may
+have been observed that I have little faith in their reliability. With
+cheap revolution this class of motors would be free from many of the
+objections raised in regard to motors generally.
+
+The practical conclusion that I would draw from a consideration of
+this subject is that the question of whether the supply of hydraulic
+elevators and motors is desirable in its effects upon the water supply
+is one that hinges so delicately upon their being carefully governed,
+connected, and restricted, that while on the one hand they may be made
+the source of large profit, and at the same time a public benefit, on
+the other hand, unless all the details of their supply be carefully
+guarded by the wisest rules and greatest watchfulness, their capacities
+for waste are so great and the rates charged necessarily so low, that
+they may become the greatest source of loss with which we have to
+contend. I therefore trust that this discussion will be continued until
+an interest is felt that will result in our all receiving much useful
+information upon two most important factors of our business.
+
+As this paper has been long for the information contained, I will close
+with the earnest wish that it may at least be of service in bringing
+these important but often neglected subjects to the attention of the
+thinking and intelligent body of men, of whom many have had much longer
+and more general experience in relation to these matters, and whose
+views when expressed will consequently be of more interest and have
+greater weight. Thus as a result may we all derive the benefit of
+whatever useful information there is to be gained by this annual
+interchange of experiences in the all-important business of public water
+supply.
+
+       *       *       *       *       *
+
+
+
+
+WATER SUPPLY OF SMALL TOWNS.
+
+
+We now describe the new waterworks lately erected for supplying the town
+of Cougleton, Cheshire. The population is about 12,000, and the place is
+a seat of the silk manufacture. After various expensive plans had been
+suggested, in the year 1879 a complete scheme for the supply of the town
+with water was devised by the then borough surveyor, Mr. Wm. Blackshaw,
+now borough surveyor of Stafford. These we now illustrate above by a
+general drawing, and a separate drawing of the tower. With respect
+to the mechanical arrangements, the Corporation called in Mr. W. H.
+Thornbery, of Birmingham, consulting engineer, to decide on the best
+design of those submitted, and this, with modifications made by him, was
+carried out under his inspection. The water, for the supply by pumping,
+is obtained from springs situated at the foot of Crossledge Hill, about
+a mile from the town. It does not at present require filtering, but
+space enough has been allowed for the construction of duplicate
+filtering beds without in any way interfering with the present
+appliances. These filter beds are shown in our perspective illustration,
+but they are not yet built or required.
+
+[Illustration: WATER SUPPLY OF SMALL TOWNS--CONGLETON WATERWORKS.]
+
+The waterworks are situated very near the springs, from which they are
+only separated by a road, under which the collecting pipes run. There
+are two circular collecting tanks of brickwork, two pumping wells,
+engine-house, boiler-house, chimney stack, and engine-driver's
+dwelling-house, all inclosed by a wall. On the top of Crossledge Hill is
+erected a circular brick water tower 35 ft. high to the underside of the
+service tank, which is of cast iron 30 ft. internal diameter, supported
+on rolled girders. The tank is capable of containing 50,000 gallons
+of water, and it is provided with the usual rising and service mains,
+overflow and washout pipes. There is an arrangement for pumping direct
+into the mains in case the tank should require cleaning or repairing.
+
+The pumping machinery is in duplicate, and each set consists of a
+horizontal condensing engine, with cylinder 18 in. diameter, stroke 30
+in., fitted with Meyer's expansion gear, governor, fly-wheel 12 ft.
+diameter, weighing 4 tons, jet condenser with a single acting vertical
+air pump, situated below the engine room floor, and between the end
+of the cylinder and the main pump. Each main pump is 10 in. diameter,
+horizontal, double-acting, worked by a prolongation backward of the
+piston-rod. The valves and seats are of gun metal, 81/2 in. diameter. The
+capacity is 350 gallons per minute, raised 206 ft. The air vessel is 21
+in. internal diameter and 6 ft. high, and is fitted with a hand pump for
+renewing the supply of air if necessary. The rising main from the air
+vessel to the service tank is 9 in. diameter, and 307 yards long, laid
+up the steep slope of the hill on which the water tower is built. The
+boilers, two in number, are of the ordinary Cornish single-flued type, 5
+ft. diameter by 18 ft. long, with flue 2 ft. 9 in. diameter, with three
+Galloway tubes. They were made by Messrs. Hill & Co., of Manchester. The
+engines and pumps were made by Mr. Albert Scragg, of Congleton, and the
+brick, stone, and builder's work was executed by Mr. Thomas Kirk. The
+waterworks were opened in the autumn of 1881, and since then have
+constantly afforded an abundant supply of water. There is also an
+independent gravitation system, also arranged by Mr. Blackshaw, for
+supplying an outlying part of the town. The cost of the works was
+exceedingly moderate, being not more than L12,000, including the water
+mains for distribution.
+
+
+PROCESS FOR SOFTENING HARD WATER.
+
+The available water of many villages and small towns is that of the
+chalk beds, but it is invariably very hard, and should be softened. We
+have received so many inquiries respecting a simple means of carrying
+out Clarke's water-softening process, that the following description
+of a set of apparatus devised for this purpose by Messrs. Law and
+Chatterton, MM.I.C.E., may interest many besides those who contemplate
+the construction of small waterworks supplied by the chalk springs.
+
+The apparatus, as made in various sizes by Messrs. Bowes, Scott,
+and Read, of Broadway-chambers, Westminster, we illustrate by the
+accompanying engravings.
+
+_Softening hard water_.--The disadvantages attending the use of hard
+water either for drinking purposes, steam generation, lavatory purposes,
+and for many manufacturing purposes, are well known, but as there are
+several methods of softening waters which are hard in different degrees
+by different substances, we may be pardoned if we here reproduce, for
+the convenience of some of our readers, a few passages from the sixth
+report of the River Pollution Commission, 1874, pages 21 and 201-16,
+which give some very valuable information on the relative merits of
+hard and soft waters in domestic and trade uses. "Some of the mineral
+substances which occur in solution in potable waters communicate to the
+latter the quality of hardness. Hard water decomposes soap, and cannot
+be efficiently used for washing. The chief hardening ingredients are
+salts of lime and magnesia. In the decomposition of soap these salts
+form curdy and insoluble compounds containing the fatty acids of
+the soap and the lime and magnesia of the salts. So long as this
+decomposition goes on the soap is useless as a detergent, and it is
+only after all the lime and magnesia salts have been decomposed at the
+expense of the soap, that the latter begins to exert a useful effect.
+As soon as this is the case, however, the slightest further addition of
+soap produces a lather when the water is agitated, but this lather is
+again destroyed by the addition of a further quantity of hard water.
+Thus the addition of hard water to a solution of soap, or the converse
+of this operation, causes the production of the insoluble curdy matter
+before mentioned. These facts render intelligible the process of washing
+the skin with soap and hard water. The skin is first wetted with the
+water and then soap is applied; the latter decomposes the hardening
+salts contained in the small quantity of water with which the skin
+is covered, and there is then formed a strong solution of soap which
+penetrates into the pores, and now the lather and impurities which it
+has imbibed require to be removed from the skin by wiping the lather off
+with a towel or by rinsing it away with water. In the former case the
+pores of the skin are left filled with soap solution; in the latter they
+become clogged with the greasy, curdy matter which results from the
+action of the hard water upon the soap solution which had previously
+gained possession of the pores of the cuticle. As the latter process of
+removing the lather is the one universally adopted, the operation of
+washing with soap and hard water is analogous to that used by the dyer
+and calico printer for fixing pigments in calico, woolen, or silk
+tissues. The pores of the skin are filled with insoluble greasy and
+curdy salts of the fatty acids contained in the soap, and it is only
+because the insoluble pigment produced is white, or nearly so, that so
+repulsive an operation is tolerated. To those, however, who have been
+accustomed to wash in soft water, the abnormal condition of skin thus
+induced is for a long time extremely unpleasant.
+
+Of the hardening salts present in potable water, carbonate of lime is
+the one most generally met with, and to obtain a numerical expression
+for this quality of hardness a sample of water containing 1 lb. of
+carbonate of lime, or its equivalent of other hardening salts, in
+100,000 lb.--10,000 gallons--is said to have 1 deg. of hardness. Each degree
+of hardness indicates the destruction and waste of 12 lb. of the best
+hard soap by 10,000 gallons of water when used for washing. Hard water
+frequently becomes softer after it has been boiled for some time. When
+this is the case, a portion at least of the original hardening effect is
+due to the bicarbonate of lime and magnesia. These salts are decomposed
+by boiling into free carbonic acid, which escapes as gas, leaving
+carbonates of lime and magnesia; the latter being nearly insoluble in
+water, ceases to exert more than a very slight hardening effect, and
+produces a precipitate. As the hardness resulting from the carbonates
+of lime and magnesia is thus removable by boiling the water, it is
+designated temporary hardness, while the hardening effect which is due
+chiefly to the sulphates of lime and magnesia, and cannot be got rid of
+by boiling, is termed permanent hardness. The total hardness of water
+is therefore commonly made up of temporary and permanent hardness.
+A constant supply of hot water is now almost a necessity in every
+household, but great difficulties are thrown in the way of its
+attainment by the supply of hard water to towns forming thick calcareous
+crusts in the heating apparatus.
+
+Waters with much temporary hardness are most objectionable in this
+respect, and the evil is so great where the heating is effected in a
+coil of pipe, as practically to prevent, in towns with hard water, the
+use of this most convenient method of heating water. The property of
+being softened by boiling which temporarily hard water possesses is not
+of much domestic use, for water is, as a rule, either not raised to a
+sufficiently high temperature or not kept at it for a long enough time.
+Seeing then the disadvantages attendant on the use of hard water, it
+remains to be considered how best to soften it. Four processes are known
+to the arts. They are: Distillation, carbonate of soda, boiling, lime.
+Of these processes the first and second are the most effective, but
+owing to their expense are not applicable on a large scale. The third
+and fourth processes are efficient only with certain classes of water,
+rendered hard by the presence of the bicarbonate of lime, magnesia,
+or iron. The fourth is, however, a very cheap process, and is easily
+applicable to the vast volumes of water supplied to large cities,
+provided the hardening ingredients are of the character described.
+
+_Softening by distillation_.--By evaporation, water is completely
+separated from all fixed saline matters, and consequently from all
+hardening matters. Distilled water, however, has a vapid and unpleasant
+taste, due partly to deficient aeration and partly to the presence of
+traces of volatile organic matter; and though filtration through animal
+charcoal will remove this, and the aeration can begin chemically, the
+process is too expensive, except in certain cases, as on board ship, or
+at military or naval stations where no potable water exists.
+
+_Softening by carbonate of soda_.--The hardness of water, as already
+explained, being principally due to the presence in solution of
+bicarbonates and sulphates of lime and magnesia, can be reduced by
+addition of carbonate of soda, which decomposes these salts slowly in
+cold water but quickly in hot, forming insoluble compounds of lime and
+magnesia, which are slowly precipitated as a fine mud, leaving the water
+charged, however, with a solution of bicarbonate and sulphate of soda.
+This process, on account of expense, is only applicable on a small scale
+to the water for laundry purposes, as the water acquires an unpleasant
+taste from the presence of the soda salts. For laundry purposes it is,
+however, valuable, as it effects a great saving of soap.
+
+_The softening of water by boiling_.--That portion of the hardness of
+water due to the presence of bicarbonate of lime, magnesia, or iron, is
+corrected by boiling the water for half an hour. During ebullition the
+bicarbonates, which are soluble, become carbonates, which are insoluble,
+giving off their carbonic acid as gas, rendering--by the precipitate
+produced, but not allowed in a boiler time to settle--the water muddy,
+but incapable of decomposing soap. To raise the temperature of 1,000
+gallons of water to the boiling point and to maintain it for half an
+hour requires the consumption of about 21/2 cwt. of coal, or by the
+wasteful appliances found in households, probably three times that
+amount. Softened by boiling, then, 1,000 gallons of water would cost
+about 7s. 6d., while the cost of softening the same amount by soap is
+9s., at L2 6s. 6d. per cwt.
+
+_The softening of water by lime_.--The economy which carbonate of
+soda exhibits in comparison with soap as a softening material is far
+surpassed by the use of lime. Lime costs about 8d. per cwt., and this
+weight of lime will soften the same volume of water as would require the
+use of 201/4 cwt. of soap. From the above it is evident--so soon as it is
+conceded that there is an advantage in using soft water--that the lime
+process is by far the most economical. Besides the chemical action
+affecting the hardness, it has another most important mechanical action,
+in consequence of the weight of each particle composing the precipitate
+produced by it. These particles during subsidence become attached to the
+almost microscopical organic impurities present in all river water, and
+drag them down to the bottom of the settling tank, whereby the water is
+rendered, after some eight hours, clear as crystal. The average cost of
+the water supplied by the leading metropolitan water companies is L10
+10s. 93/4d. per million gallons. The charge made by the companies to
+consumers is about 6d. per 1,000 gallons, or L25 per million gallons.
+It has been found that water can on a large scale be softened from 14 deg.
+hardness to 5 deg. at a cost of 20s. per million gallons--that is, 10 per
+cent. on the cost of the water to the companies, or 4 per cent. as the
+price charged to consumers. This estimate does not take into account the
+value of the precipitated chalk, which has a market price, and is used
+for many purposes, being, in fact, whiting of the purest quality. The
+operations necessary in Clarke's process are four in number: (1) The
+preparation of milk of lime; (2) the preparation of a saturated solution
+of lime; (3) the mixture of this solution with the water to be softened;
+(4) the classification of the softened water by the separation of
+the precipitated substances Messrs. Law and Chatterton effect these
+processes by simple mechanical means which are so far automatic that
+they only require the presence of a person, without technical knowledge,
+once in each twenty-four hours. No filtering medium whatever is
+required, which is a great advantage for the following reasons: (1)
+Filtering materials require periodical cleaning and renewal, which
+not only occasion much trouble and mess, but are also frequently
+inefficiently performed. (2) Experience has shown that the filtering
+material, whether cloth, charcoal, or other substance, is extremely
+liable to become mouldy or musty, which makes the wafer both unwholesome
+and unpalatable. This system is especially adapted for small water
+supplies and for use in country houses, there being no operation to
+perform requiring either technical, chemical, or mechanical knowledge,
+nor producing dust or dirt.
+
+[Illustration: Fig. 1.--LAW AND CHATTERTON'S WATER-SOFTENING APPARTUS.]
+
+The following is a description of this apparatus as fitted at the
+Hoo, Luton, Bedfordshire, for the supply of Mr. Gerard Leigh's house,
+grounds, and home farm. The mixing of the lime and the subsequent
+stirring of the water is effected by water power obtained from a
+turbine. The whole of the apparatus and tanks occupy a space 60 ft.
+square, 3,600 ft. area, and soften a daily supply of 50,000 gallons.
+
+[Illustration: Fig. 2]
+
+A pump driven from the turbine forces the water to a reservoir in the
+park and on to the house, an ingenious automatic arrangement worked by
+the overflow from the cistern throwing the pump out of gear when the
+tank is full. A, B, and C. Figs. 1 to 6 herewith, are three tanks in
+which the water remains to be softened, each capable of holding one
+day's supply. D and E are two smaller tanks in which the lime water is
+prepared; X is the automatic valve apparatus by which the connections
+between the several tanks are effected in the order and at the times
+required; H and H show the positions in which two pumps should be
+placed, the former for pumping unsoftened water into the tanks, the
+latter to pump the softened water into the supply cistern. J is the pipe
+from the well or other source of supply--in case the supply is at a
+higher level, one pump can be dispensed with. The operation consists in
+adding to the water to be softened a certain quantity of lime water,
+depending upon the degree of hardness, and in then allowing the mixture
+to rest in a state of perfect quiescence until the whole of the lime has
+been deposited and the water has become perfectly clear. The tank, A,
+has been filled with unsoftened water. Tank B contains the water
+and lime in process of clarification by subsidence after mechanical
+agitation by the screw. Tank C contains the softened water--and the
+precipitate--in process of removal for consumption. The mode of working
+is as follows: The milk of lime, prepared by slaking new lime in a
+"Michele mixer"--not shown. One of the tanks, D, having been filled with
+softened water, run by gravity from one of the tanks, A, B, or C, the
+requisite amount of milk of lime is allowed to flow into it from the
+lining machine, and the whole having been thoroughly mixed by the patent
+agitator, G, is left in a quiescent state for some hours, when the
+superabundant lime falls to the bottom, and the tank contains a
+perfectly clear and saturated solution of lime. The requisite quantity
+of lime water is then suffered to flow by gravity into whichever of the
+three tanks is empty. In the mean while, the softened water is being
+withdrawn by pumping or gravitation, as the case may be, from the tank
+C, until, upon the water being lowered to within a certain distance of
+the bottom, an automatic arrangement shifts the valve, X, so that the
+supply then commences from B, the unsoftened water flows into C, and
+the water is in process of clarification in A, and thus the operation
+proceeds continuously. Where the water can be supplied by gravitation,
+and the tanks can be placed at a sufficient elevation to command the
+service cistern, no pumps are required, the softening process, in fact,
+in no way necessitating pumping. The space occupied by the whole of the
+tanks and apparatus is 60 ft. square, 3,600 ft. area, and softens 50,000
+gallons per day. For the daily softening of quantities less than 1,000
+gallons, the tanks are made of galvanized sheet iron, and the whole
+apparatus and tanks are self-contained, so as only to require the making
+of the necessary connections with the existing supply and delivery
+pipes, and fixing in place. No expensive foundations are required, and
+the entire cost of an apparatus--see Figs. 2, 3, 4, 5, and 6--capable of
+softening 500 gallons per day is about L75. Annexed is a more detailed
+description of the manner of fixing and working the smaller apparatus.
+
+[Illustration: Fig. 3]
+
+The tank must, of course, be set up perfectly level. The pipe from the
+source of supply--in the present case from the hydraulic ram--must
+be attached to the upper three way cock at A, on the accompanying
+engravings, and the pipe to supply softened water is to be connected
+to the lower three-way cock at B, and should be led into the elevated
+cistern with a ball cock so as to keep it always filled. The three ball
+cocks in C, D, and E should be adjusted to allow the tanks to fill to
+within 3 in. of the top. The nuts at the upper extremity of the three
+rods, F, G, and H, should be so adjusted that when the water in the
+several tanks has been drawn down to within 15 in. of the bottom the
+rocking shaft, I I, is drawn down and the vertical rod, J, lifted so as
+to allow the wheel, K, and spindle, L, to revolve by the action of the
+weight, M. The length of the chain is such that when the weight, M,
+rests upon the floor the face of the raised rim on the wheel, K, should
+not quite touch the rod, J, and if necessary, a thin packing should be
+put for the weight to drop upon. The lime to be used should be pure
+chalk lime free from clay, mixed with water to a smooth, creamy
+consistency, and then poured into the small tank, N. This tank should
+then be filled with water to within 3 in. of the top, and the small air
+pump worked until the lime has become thoroughly mixed and diffused
+throughout the water. Care must be taken that previous to filling the
+tank the float, O, is raised up, as shown by the dotted lines in Fig. 3.
+After the lime has been thoroughly mixed it should be left for at
+least eight hours for the superabundant lime to subside, leaving the
+supernatant fluid a perfectly clear saturated solution of lime. At the
+end of this time the float, O, should be lowered, so that it may float
+upon the lime water, and the three-way cock, P, should be turned in such
+a position as to allow the contents of the tank, N, run into the
+tank, Q, until the necessary quantity has been supplied, the mode of
+determining which is hereinafter described.
+
+[Illustration: Fig. 4]
+
+The spindle, L, should then be turned into the position which allows the
+water from the source of supply to be discharged into the tank, Q, the
+float, R, having first been raised into the position shown in Figs. 2
+and 5. A second quantity of the lime should now be added to the tank, N,
+mixed with water, and after agitation, another eight hours allowed for
+the contents of both the tanks, Q and N, to subside. At the end of
+this time the three-way cock, P, should be turned through a third of
+a circle, so as to discharge the lime water into the tank, S; and the
+spindle, L, should be turned in the contrary direction to the hands of a
+watch through the third of a circle, so as to allow the water from the
+source of supply to be discharged into the tank, S, care being taken as
+before to raise the float, T, out of the water. A third quantity of lime
+must be added to the tank, N, and now mixed with water to be drawn from
+the tank, Q, by the tap, U, and after agitation again left for eight
+hours to subside. The float, R, may now be lowered into the water in the
+tank, Q, when it will be found that the clear softened water contained
+in the tank, Q, will be discharged through the pipe attached to the
+bottom of the three way tap, B. The weight, M, must now be lifted about
+5 in., so as to allow the ring at the end of the chain to be moved back
+to the next stud on the wheel, K. The lime water in the tank, N, must
+next be discharged into the tank, V, and then another quantity of lime
+must be added to the tank, N, and filled up with softened water from the
+tank, S, by means of the tap, W, and after being duly agitated and left
+to subside. As soon as the softened water from the tank, Q, has been
+drawn down to within 15 in. of the bottom, the rod, H, will move the
+rocking shaft, I, and lift the rod, J, so releasing the wheel, K, and
+allowing the weight, M, to descend and turn the spindle, L, and the
+upper and lower three-way cocks through a third of a circle; the effect
+of which movement will be to continue the supply of softened water from
+the tank, S, and to fill up the tank, V, with water from the source of
+supply.
+
+[Illustration: Fig. 5]
+
+The apparatus will now be in the condition to afford a regular supply
+of softened water; all that will be necessary to insure its continuous
+action will be that at certain stated intervals dependent upon the
+rapidity with which the water is used--but which interval should not
+be less than eight hours--the following things should be done: (1) The
+float must be raised out of the tank last emptied. (2) The float must be
+lowered into the tank last filled. (3) The weight, M, must be raised,
+and the ring of the chain shifted to the next stud on the wheel, K. (4)
+The clear lime water found in the tank, N, must be turned into the tank
+last emptied. (5) The requisite quantity of lime must be put into the
+tank, N. (6) The requisite quantity of water must be drawn off from the
+tank last filled into the tank, N. (7) The contents of tank, N, must be
+thoroughly mixed by means of the air pump. The quantity of lime to be
+used for each tankful of water must depend upon the hardness of the
+water, 3/4 oz. being required for each tankful for each degree of
+hardness. It is desirable, however, always to have an excess of lime in
+the tank, N, so as to insure obtaining a saturated solution of lime.
+When first mixed the contents of the tank, N, will have a creamy
+appearance, but when the superabundant lime has subsided the supernatant
+liquid will be a perfectly clear saturated solution of lime. Therefore,
+in the first instance, 3 lb. of lime should be put into the tank, N, and
+subsequently each time such a quantity of lime should be added as is
+found to be necessary by the method hereinafter described. The quantity
+of the saturated lime water to be run into each of the softening tanks,
+Q, S, and V, will depend upon the hardness of the water. For every
+degree of temporary hardness a depth of 1-6/10 in. of the contents of
+the tank, N, will be required; so that if the water has 14 deg. of
+temporary hardness, then 221/2 in. in depth of lime water must be run off
+into each of the tanks, Q, S, and V. In the first instance an excess of
+lime may be used, and the softened water tested by means of nitrate of
+silver in the following manner: A solution of 1 oz. of nitrate of silver
+in a pint of twice distilled water should be obtained. Having let two
+or three drops of this solution fall on the bottom of a white tea cup,
+slowly add the softened water; then if there be any excess of lime, a
+yellow color will show itself, and the quantity of lime water used must
+be reduced until only the faintest trace of color is perceptible.--_The
+Engineer_.
+
+[Illustration: Fig. 6]
+
+       *       *       *       *       *
+
+
+
+
+IMPROVED WATER METER.
+
+
+We annex illustrations of a meter designed by Mr. A. Schmid, of Zuerich,
+and which, according to _Engineering_, is now considerably used on
+the Continent, not only for measuring water, but the sirup in sugar
+factories, in breweries, etc. It consists of a cast iron body containing
+two gun-metal-lined cylinders, and connected by an intermediate chamber.
+Round the body are formed two channels, one for the entrance and the
+other for the discharge of the water, etc., to be measured. Within the
+cylinder are placed two long pistons, provided with openings in such
+a way that each piston serves as a slide valve to the other, the flow
+being maintained through the ports in the connecting chamber. The
+arrangement of openings in the piston is shown in Figs. 5, 6, 7, and the
+intermediate passages in Figs. 1, 2, and 3. To the upper side of each
+piston is attached a cross-head working on a disk placed at each end of
+a horizontal shaft. To one of the disks is added a short connecting rod
+that drives the spindle of a counter.
+
+[Illustration: SCHMID'S WATER METER.]
+
+       *       *       *       *       *
+
+
+
+
+WASHING MACHINE FOR WOOL.
+
+
+The washing machines in use for wool on the rake principle have during
+the last few years experienced many improvements in the details of
+their arrangement, which we have illustrated at different times in our
+columns. The introduction of these improvements and alterations shows
+that the washing of wool has attracted more attention on the part of
+observant manufacturers and machine makers, and demonstrated at the same
+time that the machines hitherto in use, with all their advantages, left
+much to be desired in other respects. The main difficulty with all
+washing machines for wool has been the avoidance of felting of the wool,
+which tendency is increased by the use of warm water for washing and by
+the agitation that some consider necessary for a thorough cleansing of
+the wool and removal of the adhering impurities, but which agitation is
+deprecated by others.
+
+[Illustration: IMPROVED WOOL WASHING MACHINE.]
+
+Referring to our different illustrations of improvements in this
+direction, our subscribers will observe that the tendency of all these
+has been to keep the wool floating in the water, and to apply all
+mechanical appliances required for its cleansing and pressing as much as
+possible while it is in this suspended condition. The success which the
+different appliances and improvements mentioned by us have had when used
+for the class of wool for which they are intended, has induced us to
+look up any attempts in a similar direction which have been made on the
+Continent, where the subject has attracted attention, as well as with
+us. We therefore give the annexed illustration of a machine invented by
+a German woolen manufacturer, which in many respects is a wide departure
+from the acknowledged type in use in this country. As with the English
+machines, the wool enters from a creeper at one end, passes through a
+long trough, filled with water or lye, ascends an inclined plane, and
+passes out through a pair of squeezing rollers. The invention mentioned
+applies to the treatment in the trough which latter is shown in our
+illustration at K. It has a second bottom, a little distance from a
+false one, at K. The false bottom is traversed in its whole length by
+an air pipe, communicating with the atmospheric air outside the trough.
+From this longitudinal pipe other pipes branch off at right angles at
+stated intervals, as shown in section in Fig. 2. These smaller pipes
+contain a number of small perforations on their upper part, through
+which the air ascends into the water in innumerable small bubbles. This
+is one of the principal aims of the invention, for in ascending the
+bubbles lift the wool more or less to the surface and tend to open it
+out without the risk of doing so by any mechanical means liable to
+produce felting. This is the same effect that is produced in many cases
+so successfully in boiling. Instead of rakes the inventor has placed
+four hexagonal drums into the trough, marked D, E, F, G. The flat parts
+of these drums are made of perforated metal and set back a little. This
+produces an alternate passing of the water into and out of them during
+their revolution and consequent sucking and repulsing of the wool, which
+also likewise agitates it. These drums are made wide at the entrance end
+of the trough and gradually narrower toward the delivery end. The pipe,
+V V, is the usual steam pipe for heating the water.
+
+We have said before that the improvements introduced into the wool
+washing machines nearer home have been of advantage for the wools for
+which they are intended, and possibly the invention just described will
+also be valuable in some cases.--_Tex. Manuf._
+
+       *       *       *       *       *
+
+
+
+
+INCREASING THE ILLUMINATING POWER OF GASES, ETC.
+
+By V. POPP, of Paris.
+
+
+This invention relates to lighting by mixing air or other gaseous
+supporter of combustion with illuminating or other hydrocarbon gas or
+vapor, and burning the mixture (at a suitable pressure) in a burner of
+special construction, shown in the accompanying illustrations.
+
+[Illustration]
+
+The burner is constructed as shown in Figs 1 and 2. It consists of a
+central tube, i, screwing upon the pipe by which the gaseous mixture is
+supplied. Upon this tube is screwed a cup, k, of metal or refractory
+material which supports a cap, l, of fire-clay in the shape of a thimble
+(or of other form, according to the intended use of the burner). The
+flanged base of this cap is perforated with a ring of holes, m, as small
+and numerous as possible, and the sides of the cap are pierced with
+oblique perforations, n. The top of the tube, i, is provided with four
+small projections, upon which rests a copper cone, o, soldered to the
+tube at a point below the perforations in the base of the thimble. The
+cone is perforated at its lower end with small holes, p, the sum of
+whose areas is at least equal to the area of the tube. The thimble,
+l, is surrounded by an envelope, q, of platinum wire netting or other
+refractory material of the same form. The gaseous mixture arriving by
+the pipe, i, escapes at the upper orifices, r, and passes down against
+the interior surface of the cone, o, out at the orifices, p, and escapes
+through the orifices in the cap, l, at which it is burned. The cap is
+thereby raised to a high temperature; and the platinum wire sheath
+becoming incandescent radiates the light. The gaseous mixture, by coming
+first in contact with the copper cone and then with the refractory cap,
+becomes raised to an exceedingly high temperature before it is consumed.
+
+In the modified burner represented in Fig. 3, the metal cone and the
+fire-cap are truncated. The tube, i, is provided with a number of small
+perforations, r, at its upper end, the sum of whose areas is at least
+equal to the area of the tube, and by which the gaseous mixture is
+distributed within the chamber, k. Upon the upper closed end of the tube
+is fixed a cup or inverted thimble, o, of fire-clay. A refractory cone,
+l, surrounds this cup and rests by its base upon the cup. This flanged
+base is perforated with small vertical holes, m, and upon it is fixed a
+platinum wire cage or envelope, q. An annular space is left between the
+cone and cup for the passage of the gaseous mixture, which, on escaping
+from the orifices, r, passes over the exterior surface of o, the
+interior of which is already heated by the flame which has not passed
+through the wire gauze, and has been forced by the pressure of the
+mixture into the interior of o. The gaseous mixture before passing
+through the annular space thus attains such a temperature that on
+escaping from the orifice its combustion is greatly promoted.
+
+       *       *       *       *       *
+
+
+
+
+PREVENTING IRON FROM RUSTING.
+
+
+In the present state of civilization the use of iron has reached a very
+wide extension, and in a great number of cases iron is used where wood
+or stone was formerly used. It is certainly an important question how
+this metal can be protected under all circumstances against rust or
+oxidation, so that the many costly iron structures may retain their
+usefulness and strength, and be handed down uninjured to posterity.
+
+Wherever bright iron comes into contact with air and moisture it
+immediately begins to rust, and this rust is not content to continually
+rob it of its substance in its persistent progress by scaling off the
+surface, but at the same time it injures the remainder of the iron by
+making it brittle. Attempts have hitherto been made to protect the iron
+by covering it with other and less easily oxidizable metals. For this
+purpose tin was first selected, then lead and zinc, and recently nickel.
+Furthermore, earthy glazings and enamels, such as are used on stone
+ware, have been applied to iron vessels, and they have already found
+extensive use in the household. In most cases these coatings, either
+metallic or vitreous, are inapplicable, either because they cannot be
+applied or are too expensive, so that on a large scale recourse must be
+had to paints made by mixing oils with metallic oxides, earths, etc.,
+for protecting the surface of the iron from air and moisture.
+
+It has been observed that iron does not rust in _dry_ air, not even in
+dry oxygen. In like manner it frequently happens that unpainted iron,
+such as weather vanes, fences, etc., is exposed to the air for a century
+with very little injury, being covered with a thin coating of the
+magnetic oxide (proto-sesquioxide), which acts as a protection and
+prevents farther action. Hence it has been proposed to produce a layer
+of this magnetic oxide on the surface artificially, and it was found
+that superheated steam furnished the means for doing this. But it is not
+to be supposed that such a process would find use on a large scale, and
+besides this protection could only serve for iron tolerably exposed to
+the open air and not for that in direct contact with carbonic acid and
+water.
+
+An interesting observation has been made on railways that the iron
+rails, ties, bolts, etc., rust until the road begins to be used. Here we
+must assume that anything made of iron is more inclined to rust when at
+rest than if occasionally caused to vibrate, when an electrical action
+probably comes into play and decreases the affinity of iron for oxygen.
+
+In tearing down old masonry iron bonds and clamps are often found which
+are as free from rust, so far as they are covered with mortar, as they
+were the day they left the blacksmith's hands. A French engineer met
+with such a phenomenon when he uncovered the anchor plates of several
+chain bridges which had been built about thirty years. Where the anchors
+were covered with the fatty lime mortar of the masonry they showed no
+traces of rust, but the prolongations of the anchors in empty spaces
+were rusted to such an extent that they were only one-third of their
+original thickness.
+
+It has been repeatedly observed that iron does not rust in water in
+which are dissolved small quantities of caustic alkalies or alkaline
+earths, which neutralize every trace of acid. It seems that these
+experiences are the basis of A. Riegelmann's (Hanau) new protection
+against rust. The paint that he uses contains caustic alkaline earths
+(baryta, strontia, etc.), so that the iron is in a condition similar to
+the iron anchors of the chain bridges that were embedded in lime mortar.
+Although a paint is not thick enough to inclose so much alkali as the
+masonry did that the iron was embedded in, nevertheless the alkaline
+action will make itself felt as long as the coating has a certain
+consistence. Under all circumstances, however, these new paints will
+be free from active acids, which is more than can be said of our iron
+paints hitherto in use. Besides this, the rust protector has such
+a composition that it could serve its intended purpose without the
+addition of any alkali. If experience confirms this claim, it will be an
+interesting step forward in the preservation of iron, and contribute to
+an extension in the use of iron.--_Polytechn. Notizblatt_.
+
+       *       *       *       *       *
+
+[Illustration: SUGGESTIONS IN DECOTATIVE ART.--A CUPBOARD IN ITALIAN
+WALNUT WITH DARKER PANELING.--_From The Workshop_.]
+
+       *       *       *       *       *
+
+
+
+
+AN ELASTIC MASS FOR CONFECTIONERS' USE.
+
+
+It should be made in a well glazed earthen crock; metallic vessels are
+not good, as the gelatine burns too easily on the sides, and dries
+out where it gets too hot. Nor is a water bath to be recommended for
+dissolving the gelatine, for the sides get too hot and dry out the
+gelatine.
+
+A quart of water is put in the crock and heated to boiling; it is then
+taken off the open fire and two pounds of the finest gelatine stirred
+in, a little at a time. After the gelatine is completely dissolved there
+is to be added eight or ten pounds (according to the quality of the
+gelatine) of the finest white sirup previously warmed, and constantly
+stirred. The mass must not boil, as it would easily burn, or turn brown
+and acquire a bad color.
+
+Thirty or forty pounds of a beautiful white elastic mass can be made by
+this recipe in an hour at a cost of ten or twelve cents. Its chief use
+is for making figures and ornaments to put on bridal cakes and other
+fanciful productions of the confectioner. It contains no harmful
+ingredients and can be eaten without danger. If coloring is added,
+cochineal, plant green (chlorophyl), and turmeric are safer than aniline
+colors.
+
+       *       *       *       *       *
+
+
+
+
+CAOUTCHOUC.
+
+
+A. Levy contributes the following brief account of this subject to the
+_Moniteur Scientifique_:
+
+The crude gum cut in irregular strips is passed five or six times
+between two strong rolls sixteen inches in diameter, and making two
+or three revolutions per minute. These rolls are kept wet by water
+trickling on them. This broad strip of gum is perforated with foreign
+substances and looks like a sieve. It is next put in the cutting
+machine, a horizontal drum provided with an axle having knives on it. So
+much heat is produced by this cutting that the water would soon boil if
+it were not renewed. A second machine of this kind completes the cutting
+and subdividing, and expels the air and water from it. The mass is then
+pressed in round or quadrangular blocks.
+
+The vulcanization of thin articles from one twenty-fifth to
+one-sixteenth inch thick, is done by Parkes' patented process, that is,
+dipping it in carbon disulphide for a short time, to which chloride or
+bromide of sulphur has been added, and when the solvent has evaporated
+the sulphur remains behind. Balls, ornamental articles, and surgical
+apparatus are dipped into melted sulphur at 275 deg. or 300 deg. Fahr.
+
+The third most important process consists in mixing in the sulphur
+mechanically with the gum in the cutting machine.
+
+After the pieces have received the form they are to have they are heated
+with steam or hot air to 275 deg.. Flat articles are vulcanized between
+press plates heated by steam. This vulcanization is said to have been
+discovered accidentally by searching different colored stuffs, some of
+which were dyed yellow with sulphur; the latter stood well.
+
+Hard rubber contains more sulphur, and is heated longer and higher.
+Small or fine tubes and hose are made by a continuous machine that
+presses it through a hole with a core to it. Large hose is made by
+wrapping strips around iron rods or tubes. The little air balloons
+are made in Paris (their value is $300,000) by Brissonet from English
+Mackintosh cloth. Powdered soapstone is strewed over it in cutting. The
+edges are united by hammering on a horn anvil, or by machinery through
+simple adhesion, and the cut surfaces are smooth.
+
+       *       *       *       *       *
+
+
+
+
+PHOTOGRAPHIC ACTION STUDIED SPECTROSCOPICALLY.
+
+
+At the last meeting of the Chemical Society Captain Abney gave a lecture
+on the above subject to a large audience. We may premise by saying that
+the demonstrations he gave were carried out principally by means of
+experiments on paper, to enable his hearers to understand the different
+points he wished to enforce. The lecture was commenced by insisting on
+the fact that all photographic action took place within the molecules of
+the compound acted upon and not on the molecule itself, and from this
+he deduced that the absorption of radiation which take place by such
+compounds is principally caused by the atoms composing the molecule.
+This was found to be the case in the organic liquids, which the lecturer
+to some extent had investigated, where he had further traced the
+absorption to the vibrating atoms of hydrogen in those bodies. In
+order to properly investigate the action of light it was necessary to
+ascertain which components of light in the spectrum were the chief
+agents in causing it, and this led him to consider the means to be
+employed to obtain a spectrum.
+
+The effects of diffraction gratings were first discussed, and in two
+which were shown it was found that in some spectra the visible portions
+were dimmed; in others the ultra-violet and the infra-red were almost
+entirely absent. It thus became necessary to investigate the condition
+of a grating before placing any confidence in the results obtained. This
+was the first pitfall into which an experimentalist was liable to fall.
+If prisms were used for obtaining the spectrum, then precautions had
+also to be taken, since all glass absorbed a portion of the ultra-violet
+rays and some the infra-red. On the whole, he considered that the best
+glass to use was pure white flint glass for the collimator, the prisms,
+and the camera lens. Another inquiry that was necessary was the
+source of radiation which it was proposed to use. Diagrams showed the
+unsatisfactory nature of solar radiation, and a photograph of the whole
+spectrum, taken with it under certain atmospheric conditions in which
+the effect of the green rays were almost _nil_, demonstrated the false
+conclusions that might be deduced as to the sensitiveness of any
+particular compound.
+
+Captain Abney also showed the satisfactory conditions which existed in
+using the crater of the positive pole of the electric arc light as a
+source, and by diagrams illustrated the inferiority of an incandescent
+light for the purpose, owing to the deficiency of violet and
+ultra-violet rays. Having thus settled the source of illumination and
+the kind of apparatus to employ, he next considered the conditions under
+which the sensitive salts were to be exposed. The action of ordinary
+sensitizers was explained and demonstrated by experiments, from which
+point the results of certain colored sensitizers were considered. Thus,
+various aniline dyes were proved to be bromine absorbents, and likewise,
+more or less, to be capable of being acted upon by light in those
+regions of the spectrum they absorbed. The result of the two effects was
+to produce a developable image of the spectrum just in those parts to
+which the salt of silver was sensitive, and also in the parts where the
+dye itself was acted upon. The latter effect was traced to the organic
+matter being oxidized in the presence of the sensitive silver salt.
+
+The sensitizing effect of one silver compound upon another was then gone
+into, and experiments and photographs showed where two salts of silver
+were in contact with one another, and without an energetic sensitizer
+being at hand, that the one when acted upon by light absorbed the
+halogen liberated from the other through the same cause and that a new
+molecule was formed. This was of importance, since in photographic
+spectroscopic researches a conclusion might be arrived at that a
+body suffered absorption in those regions of the spectrum where this
+interesting reaction took place, whereas in reality the phenomenon might
+be due to the silver salts employed. This was another pitfall for the
+unwary. Again, it became necessary in studying photographic action to
+make sure that the effect of radiation was only a reducing action, and
+that the results were not vitiated by some other action.
+
+The destruction by oxidizing agents of the effect produced by light was
+then experimentally demonstrated, and photographs of the spectrum showed
+that this effect was increased by the action of light itself. Thus, when
+immersing a plate sensitive to all radiations, visible and invisible,
+in a very dilute solution of nitric acid, bichromate of potash, or
+hydroxyl, it was shown that if the plate were exposed to light, first
+the parts acted upon by the red rays were reduced before the parts not
+acted upon at all by the spectrum, thus conclusively proving that light
+itself helped forward the oxidation or so-called solarization of the
+image. It thus became a struggle, under ordinary circumstances, between
+the reducing action on the normal salt and the oxidizing action on the
+altered salt as to which should gain the mastery. If the reducing action
+of any particular ray were the most active, then a negative image
+resulted, whereas if the oxidizing action were in the ascendant, a
+positive image resulted. Thus, in determining the action of light on
+a particular salt, this antagonism had to be taken into account, and
+exposure made with such precautions that no oxidizing action could
+occur, as would be the case if an inorganic sensitizer, such as sulphite
+of soda, were used.
+
+The reversal of the image by soluble haloid salts, such as bromide of
+potassium, was then dwelt upon with experimental demonstration. It was
+shown that the merest trace of soluble haloid would reverse an image
+by the extraction of bromine from it, and the fact that the most
+refrangible part of the spectrum was principally efficacious in
+completing this action showed how necessary it was to avoid falling
+into error when analyzing photographic action by the spectroscope. A
+reference was next made to gelatine plates, in which, owing to their
+preparation, reversal through the above cause was most likely to take
+place, and a plate soaked in sulphite of soda and exposed in the camera
+for a couple of minutes--a time largely in excess of that necessary to
+give a reversal under ordinary circumstances--proved the efficacy of
+the oxygen absorber, the image remaining in its normal condition after
+development.
+
+The lecturer closed his remarks by showing the different molecular
+states of iodide, bromide, and chloride of silver, as produced by
+different modes of preparation. The color of the film by transmitted
+light in every case indicated the effect which was likely to be produced
+on them, and the photographed spectrum in each of them showed the
+remarkable differences that were found. The points raised by Captain
+Abney at different times are well worthy the study of scientific
+photographers, since strict attention to the modes of exposure to the
+spectrum, to the instruments employed, and to the source of light used
+can alone insure accuracy in comparative experiments.--_Br. Jour. of
+Photo_.
+
+       *       *       *       *       *
+
+
+
+
+SALT AND LIME.
+
+
+M.F.K. communicates the following interesting circumstance to _Neueste
+Erfindung_.: A few years ago it was decided to whitewash the walls
+and ceiling of a small cellar to make it lighter. For this purpose a
+suitable quantity of lime was slaked. A workman who had to carry a
+vessel of common salt for some other purpose stumbled over the lime
+cask and spilled some of his salt into it. To conceal all traces of his
+mishap he stirred in the salt as quickly as possible. The circumstance
+came to my knowledge afterward, and this unintentional addition of salt
+to the lime excited my liveliest curiosity, for the whitewash was not
+only blameless, but hard as cement, and would not wash off.
+
+After this experience I employed a mixture of milk of lime and salt
+(about three parts of stone lime to one part of salt), for a court or
+light well. To save the trouble and expense of a scaffold to work on, I
+had it applied with a hand fire engine (garden syringe?) to the opposite
+walls. The results were most satisfactory. For four years the weather
+has had no effect upon it, and I have obtained a good and cheap means of
+lighting the court in this way.
+
+       *       *       *       *       *
+
+
+
+
+RENEWING PAINT WITHOUT BURNING.
+
+
+It is stated in the _Gewerbeblatte fur Hessen_ that paint can be renewed
+and refreshed in the following manner:
+
+When cracks and checks appear in the paint on wooden articles, this
+usually indicates that the varnish has cracked. If this is the case, the
+article can easily be prepared for a fresh coat by sponging it over with
+strong ammonia water, and two or three minutes later scraping off the
+varnish with the broad end of a spatula before the ammonia has dried up.
+
+In this way the first coat is removed. If it is necessary to remove the
+next coating, the same operation is repeated. After the last coat
+has been scraped off that is to be removed, it must be washed with
+sufficient water to render the ammonia inactive, and then the surface is
+rubbed with pulverized pumice to make it smooth. Any desired paint or
+varnish can be applied to a surface prepared in this way.
+
+       *       *       *       *       *
+
+
+
+
+TESTING OLIVE OIL.
+
+By DR. O. BACH.
+
+
+There is no department in analytical chemistry in which so little
+success has been attained as in the testing of commercial fats and oils.
+All methods that have been proposed for distinguishing and recognizing
+the separate oils, alone or mixed, bear upon them the stamp of
+uncertainty.
+
+The facts observed by J. Koenig, and described by him in his excellent
+book entitled "_Die Menschlichen Nahrungs und Genussmittel_" (p. 248),
+excited great expectations; viz., that the quantity of glycerine in
+vegetable fats was much less than the amount required to combine with
+all the fatty acids, and that the quantity of oleic acid in the oils
+that he examined exhibited essential differences. Koenig himself asserts
+that the fats have hitherto been too little investigated to found upon
+it a method for distinguishing them, but that nevertheless it may
+possibly do good service in some cases.
+
+My own estimation of the amount of glycerine in different olive oils, by
+Koenig's method, has shown, unfortunately, that the percentage may vary
+from 1.6 to 4.68, according to the origin and quality of the oil. In
+like manner the estimation of the oleic acid, which was conducted
+essentially in the manner proposed by Koenig, showed that the amount of
+oleic acid in different olive oils varied from 45 to 54 per cent. But
+since cotton seed oil, for example, which is most frequently used to
+adulterate olive oil, contains 5 per cent. of glycerine, and 59.5 per
+cent. of oleic acid, it is easy to see an admixture of cotton seed oil
+cannot be detected by this method, which appeared to be so exact.
+
+The method of analysis that I am about to describe is based chiefly upon
+the determination of the melting point of the fatty acids contained in
+the oils, and upon their solubility in a mixture of alcohol and acetic
+acid.
+
+The oils employed in adulterating olive oil, and to which regard must be
+had in testing it, are the following: Cotton seed oil, sesame, peanut,
+sun flower, rape, and castor oils. The tests for the two last named
+have hitherto never presented any difficulty, as rape seed is easily
+detected, owing to the sulphur in it, by saponifying it in a silver
+dish, and castor oil by its solubility in alcohol. But in recent times
+another product has come into the market called sulphur oil or pulpa
+oil, obtained by extracting the pressed olive cake with sulphide of
+carbon. This also gives a sulphur reaction when saponified, while it
+resembles castor oil by its solubility in alcohol. When this oil is
+mixed with ordinary olive oil, it can easily deceive any one who uses
+the ordinary tests.
+
+My method of testing olive oil is as follows:
+
+First, the so-called elaidine test is made, and then the test with
+nitric acid. About 5 c. c. (a teaspoonful) of the oil is mixed in a test
+tube with its own volume of nitric acid, spec. gr. 1.30, and shaken
+violently for one minute. At the expiration of this time the oils will
+have acquired the following colors: Olive oil, pale green; cotton seed
+oil, yellowish brown; sesame, white; sun flower, dirty white; peanut,
+rape, and castor oils, pale pink or rose.
+
+As soon as the color has been observed, the test glass is put in a water
+bath at the full boiling temperature and left there five minutes. It was
+found that the action of nitric acid upon cotton seed and sesame oil was
+the most violent, sometimes so violent as to throw the oil out of the
+glass. At the end of another five minutes after the test tube is taken
+out of the water bath, the following colors are seen: olive and rape
+oils are red; castor oil is golden yellow; sun flower oil, reddish
+yellow; sesame and peanut, brownish yellow; cotton seed, reddish brown.
+
+After standing 12 to 18 hours at about 60 deg. Fahr. the olive, rape, and
+peanut oils will have solidified; sun flower, castor, and cotton seed
+will be like salve (sticky), while sesame will remain perfectly liquid.
+Mixtures of olive oil with small quantities of cotton seed or sesame are
+distinguished by this characteristic--that, although the whole mass,
+which is darker in color than olive oil, solidifies at first, at the end
+of 24 or 36 hours a brown oil will be found floating upon the surface of
+the solid mass, while the lower strata exhibit the yellow color of pure
+olive oil. Oil of rosemary has no effect when shaken with cold nitric
+acid, and imparts to it only a slightly darker color on heating. Oils
+treated with lye act just like pure oils.
+
+Far the purpose of determining the melting point of the fatty acids, 10
+grammes of oil were saponified with 5 grammes of caustic potash on the
+water bath; some water and alcohol being added. After all the alcohol
+had been expelled the soap was dissolved in hot water, and the fatty
+acids separated from the clear solution by adding hydrochloric acid.
+After prolonged heating these acids will swim on the salt solution as
+a perfectly clear oil, a portion of which is then put into a little,
+narrow, thin walled tube and allowed to solidify. The point at with it
+melts and solidifies is determined by putting this tube in a beaker
+glass filled with water and warming with a small flame. A thermometer
+is placed _in_ the fatty acids and moved gently about during the
+observation, and the point accurately observed at which the whole mass
+becomes perfectly clear, and also when the mercury bulb begins to be
+clouded. It was found that the acids from pure olive oil melt between
+261/2 and 281/2 deg. C. (= 80 deg. to 83 deg. Fahr.) and solidify at a point not lower
+than 22 deg. C. (72 deg. Fahr.). The melting point of the fatty acids in the
+oils used to adulterate olive oil differs considerably from this. The
+melting and solidifying points of the acids in cotton seed, sesame,
+and peanut oils lie considerably higher, those of sunflower, rape, and
+castor oils decidedly lower than those of olive oil.
+
+The melting and solidifying points of these acids are as follows:
+
+  Cotton seed melts at 38.0 deg.C.  solidifies 35.0 deg.C.
+  Sesame       do.     35.0 do.    do.     32.5 do.
+  Peanut       do.     33.0 do.    do.     31.0 do.
+  Sunflower    do.     23.0 do.    do.     17.0 do.
+  Rape         do.     20.7 do.    do.     15.0 do.
+  Castor oil   do.     13.0 do.    do.      2.0 do.
+
+The above figures differ so much from those of olive oil, that
+adulteratious carried to the extent that they are in trade can easily
+be detected by the aid of an estimation of the melting point, for a
+Gallipoli olive oil, mixed with 20 per cent. of sunflower oil, melted at
+24 deg. C. and solidified at 18 deg. C. (of course, the fatty acids are meant).
+A Nizza oil, mixed with 20 per cent. cotton seed oil, melted at 311/2 deg. C.
+and solidified at 28 deg. C. A Gallipoli oil with 33-1/3 per cent. of rape
+oil melted at 231/2 deg. C. and solidified at 161/2 deg. C. When 0.50 per cent. of
+rape is added, it melts as low as 20 deg. and solidifies at 131/2 deg. C., etc.
+
+In testing the solubility of the fatty acids in alcohol and acetic acid,
+I employ the method proposed by David (in _Comptes Rendus_, 1878, p.
+1416) for estimating stearic acid.
+
+It depends upon the principle that when acetic acid is poured drop by
+drop into an alcoholic solution of oleic acid, there comes a time when
+all the oleic acid separates, but stearic acid, which is insoluble in
+a mixture of alcohol and acetic acid, remains insoluble if the mixture
+contains oleic acid.
+
+The following manipulations are adopted in testing olive oil: Equal
+parts of glacial acetic acid and water are mixed in a bottle. Then 1
+c.c. of pure oleic acid, 3 c.c. of 95 per cent. alcohol, and 2 c.c.
+of acetic acid are put in a small tube graduated in tenths of cubic
+centimeters. The solution should remain clear; on adding another
+one-tenth c.c. of acetic acid it becomes turbid, and when 1 c.c. of
+oleic acid (or at first even more) floats on the mixture of acid and
+alcohol, the liquid is ready for use. If this is not the case, the
+proportions (of acetic acid and alcohol?) must be varied until the
+addition of one-tenth c.c. of the former will cause all the oleic
+acid to separate. The proportions having been ascertained from
+these preliminary experiments, the alcohol and acid are then mixed
+accordingly, e.g., 300 of alcohol to 225 of acid. One or two grammes
+of stearic acid are added to the alcoholic acetic acid, and the clear
+supernatant liquid used for the experiments.
+
+One cubic centimeter of the oil (acids) to be tested is put in the tube,
+and 15 c.c. of alcoholic acetic acid added, well shaken, and the whole
+left to stand quietly at 15 deg. C. (60 deg. Fahr). If the olive oil is pure,
+the acids dissolve to a clear solution that remains so. Cotton seed
+oil is insoluble, and the solution obtained by heating the solution
+solidifies at 60 deg. Fahr. to a white jelly. Sesame and peanut oil react
+in a similar manner. Sunflower oil dissolves, but at 60 deg. a granular
+precipitate falls. Rape oil is entirely insoluble and floats like oil on
+the surface. Castor oil on the contrary dissolves completely, just like
+olive oil, and hence cannot be detected therein by this method. To
+detect this oil we must take the melting point of the acids along with
+the solubility of the oil itself in alcohol.
+
+Olive oil when mixed with 25 per cent. of cotton seed oil yields a
+granular precipitate, and so does 25 per cent. of sesame. Smaller
+quantities cannot be detected by these methods. For rape oil the limit
+is 50 per cent., and in smaller quantities the oil does not collect on
+the alcoholic solution. The decided lowering of the melting point of
+the fatty acids in combination with the sulphur reaction, and the
+insolubility of the oil in alcohol, also furnish a method of detecting
+when present in smaller quantities in olive oil.
+
+Although I am well aware that I am making public a research that is by
+no means free from objections, I nevertheless believe that it may be of
+use to those who have to undertake the ticklish and intricate analyses
+of commercial fats.--_Translated from the Chemiker Zeitung_, p. 355.
+
+Leipsic, Jan., 1883.
+
+       *       *       *       *       *
+
+
+
+
+ON THE THEORY OF THE FORMATION OF COMPOUND ETHERS.
+
+
+In a note presented to the Industrial Society of Mulhouse, A. Pabst
+discusses the different stages in the formation of compound ethers, as
+Williamson has explained the production of ordinary ethers by the action
+of sulphuric acid upon alcohol. Pabst has observed that the compound
+ethers are formed in an analogous manner. If alcohol, sulphuric acid,
+and acetic acid are heated together, acetic ether, we know, is formed.
+
+Pabst has shown that it takes place in three stages. In the first stage,
+ethyl sulphuric acid and water are formed; in the second, acetate of
+ethyl with the reproduction of sulphuric acid, which again converts a
+fresh quantity of alcohol into ethyl sulphuric acid.
+
+  (1) C_{2}H_{5}OH+HO,SO_{2}OH = C_{2}H_{5}O,SO_{2}OH+H_{2}O.
+      (Alcohol.) (Sulphuric acid.) (Ethyl sulphuric acid.)
+
+  (2) C_{2}H_{5}O,SO_{2}OH+C_{2}H_{3}O,OH =
+     (Ethyl sulphuric acid.) (Acetic acid.)
+
+       C_{2}H_{5}O,C_{2}H_{3}O+HO,SO_{2}HO.
+       (Acetate of ethyl.) (Sulphuric acid.)
+
+Pabst proved this by letting methyl sulphuric acid act upon a mixture of
+acetic acid and ethyl alcohol. He obtained by this process acetate
+of methyl and ethyl sulphuric acid. By the continued action of ethyl
+alcohol and acetic acid upon this mixture, of course, acetate of ethyl
+was formed. At the conclusion of the operation there was no longer any
+methyl sulphuric acid present in the liquid.
+
+In the course of his investigations, Pabst was led to a very practical
+method for preparing acetate of methyl, which consists in heating ethyl
+sulphuric acid to 135 deg. or 140 deg. C, and allowing a mixture of equal
+molecules of strong alcohol and acetic acid to flow into it.
+
+The details of his experiments and the method of purification will be
+published by the society.
+
+       *       *       *       *       *
+
+
+
+
+A GREEN OR GOLDEN COLOR FOR ALL KINDS OF BRASS.
+
+By E. PULCHER.
+
+
+The French brass castings and articles of sheet brass are made of cheap,
+light colored brass, and possess a fine golden color which is not
+produced by gold varnish, but by a coating of copper. This gives them a
+finer appearance, so that they sell better.
+
+This golden color can be easily produced at very little expense and with
+but little trouble by the following process. Fifty grammes of caustic
+soda and 40 grammes of milk sugar are dissolved in a liter of water
+and boiled for a quarter of an hour. The solution is clear as water at
+first, but acquires a dark yellow color. The vessel is next taken
+from the fire, placed on a wooden support, and 40 grammes of a cold
+concentrated solution of blue vitriol stirred in. A red precipitate of
+suboxide of copper is at once formed, and by the time the mixture cools
+to 167 deg. Fahr., the precipitate will have settled.
+
+A suitable wooden sieve is placed in the vessel, and on this the
+polished articles are laid. In about one minute the sieve is lifted up
+to see how far the operation has gone, and at the end of the second
+minute the golden color is dark enough.
+
+The sieve and articles are now taken out, and the latter are washed
+and then dried in sawdust. If the brass is left longer in the copper
+solution, in a short time a fine green luster is produced, becoming
+yellow at first and then bluish green. After it turns green, then the
+well-known iridescent colors finally appear. To obtain uniform colors
+it is necessary that they be produced slowly, which is attained at
+temperatures between 135 deg. and 170 deg. Fahr.
+
+The copper bath can be used repeatedly and can be kept a long time if
+bottled up tightly without change. After it is exhausted it can be
+renewed by adding 10 grammes of caustic soda, replacing the water that
+has evaporated, heating to boiling, and adding 25 grammes of a cold
+solution of blue vitriol.
+
+Similar operations with other well known reducing agents, such as
+tartrate of soda, glycerine, etc., do not give such good colors, because
+they do not precipitate the copper solution so rapidly and at so low a
+temperature.
+
+If the rinsed and pickled brasses are dipped for five minutes in a three
+per cent. neutral solution of cocoa nut oil soap, and then washed with
+water again before they dry, the coating gains in permanence.
+
+Brass articles that have to be cleaned frequently should be covered with
+oil of turpentine, or thin English copal varnish.--_Neueste Erfind_.
+
+       *       *       *       *       *
+
+
+
+
+VINEGAR.
+
+
+Hermann Kratzer, of Leipsic, communicates the following practical
+information on the clarification and purification of vinegar to the
+_Neueste Erfindungen und Erfahrungen_:
+
+If vinegar has an unpleasant odor, which is rarer now that the vinegar
+manufacture has reached such a state of perfection, it may be removed as
+follows: Well burned and finely pulverized wood charcoal is put into
+the bottles containing the vinegar, the proportions being 8 grammes of
+charcoal to a liter of vinegar, or one ounce to the gallon. It is shaken
+several times very thoroughly, then left standing three or four days,
+and the vinegar filtered through a linen cloth. Vinegar treated in this
+manner will be found to have completely lost its unpleasant odor.
+
+I have found that when I used blood charcoal or bone coal in place of
+wood coal it was still more efficient; but it must be mentioned that
+when they are used they must be purified as follows before using:
+Charcoal from blood contains potash and hence it is necessary to wash it
+with distilled water and dry it before using it. Bone coal (also called
+bone black, animal charcoal, etc.) contains on an average 10 per cent.
+of nitrogenous and hydrogenated carbon, 8 per cent. of carbonate of
+lime, 78 per cent. of phosphate of lime, besides phosphate of magnesia,
+sulphate of lime, soluble salts, etc. Before using, it should be treated
+with dilute hydrochloric acid until it does not effervesce any more. The
+bone coal is then left to stand for 24 or 30 hours and at the end of
+this time is washed with distilled water until the wash water no longer
+reddens a blue piece of litmus paper, i.e., until every trace of
+hydrochloric acid has been removed from the bone coal. Wood charcoal
+may be treated in like manner. When this coal is perfectly dry it is
+employed in the same proportions as the other, 8 to 1,000, the operation
+being exactly the same.
+
+He turns next to the clarification of the vinegar.
+
+It happens everywhere that vinegar instead of being clear is sometimes
+turbid. This is due to particles of yeast dissolved in the vinegar that
+have not yet settled. To remove this kind of turbidity it is customary
+to use oak or beech shavings that have been washed in hot water and then
+dried. These shavings, which must be very long and extremely thin, are
+put in a barrel with a second and perforated bottom, to a depth of 12
+to 34 inches. The vinegar that runs through them deposits its slimy
+constituents on the shavings and becomes perfectly clear, and presents
+to the eye a pleasing appearance.
+
+To this generally known method I would add a few more:
+
+1. I take a 1/2 kilo of well pulverized _animal charcoal_ (black burned
+bones) to 7/8 of a hectoliter of vinegar (1 lb. to 20 gallons), and stir
+it well with a wooden rod; or, if the vinegar is in bottles, I shake it
+a long time after putting the animal charcoal in the bottle, and repeat
+it several times. After three or four days I finally filter the vinegar
+through linen, when the filtrate will exhibit the desired clearness.
+
+2. The best way to clarify vinegar is with _isinglass_. It is first
+broken up, then swelled for a day in vinegar (17 or 18 grammes to the
+liter), then 2 liters of vinegar are added and the mass boiled until the
+isinglass is completely dissolved. Such a solution as this (1/2 ounce to
+3 quarts) is mixed with 101/4 hectoliters (250 gallons) of turbid vinegar
+and well stirred through it. After the expiration of five or six weeks
+vinegar treated in this way has a beautifully clear appearance.
+
+3. _Albumen_ can likewise be used to clarify it. The vinegar is boiled
+with the albumen until the latter is completely coagulated, and then the
+vinegar is filtered.
+
+4. And finally _milk_ may be employed. For this purpose the milk is
+skimmed, and 1 quart of milk added for every 68 quarts of vinegar,
+the mixture well stirred and shaken. After the caseous portion has
+coagulated (curdled) it is filtered as before, and in this case, too,
+the product is a fine, clear vinegar.
+
+We believe that these few experiments, so easily performed, and at so
+small an expense, will prove useful to our readers in enabling them to
+put their product in the market in an excellent condition and nicely
+clarified.
+
+       *       *       *       *       *
+
+
+
+
+THE ALIZARINE INDUSTRY.
+
+
+At a recent meeting of the Manchester section of the Society of Chemical
+Industry, Mr. Ivan Levinstein described the history and progress of the
+manufacture of alizarine, from which are produced fast red, purple,
+brown, and black dyes. He said alizarine was, until very recently, made
+only from the root of the madder plant, of which the yearly crop was
+70,000 tons, and represented an annual value of L3,150,000, of which
+the United Kingdom consumed 23,000 tons, representing a value of nearly
+L1,000,000.
+
+Madder is now no longer grown for this purpose. The German chemists
+found that alizarine produced from madder in undergoing certain
+treatment gave a substance identical with anthracine, one of the
+constituents of coal tar, and in 1869 the same chemists announced to
+the world that they had accomplished the synthesis of alizarine from
+anthracine. The effect of this discovery was to throw madder out of
+cultivation.
+
+Mr. Perkin, an English chemist, and Messrs. Graebe and Liebermann,
+German chemists, almost simultaneously applied for patents in 1869,
+in England, and as their methods were nearly identical they arranged
+priorities by the exchanging of licenses. The German license became the
+property of the Badische Aniline Company, and the English license became
+the property of the predecessors of the North British Alizarine Company.
+These patents expire in about two months, and the lecturer explained
+that an attempt made by the German manufacturers to further monopolize
+this industry (even after the expiry of the patent) proved abortive. He
+also stated that alizarine, 20 per cent. quality, is sold to-day at 2s
+6d. per lb., but that if the price were reduced by one-half there will
+still be a handsome profit to makers, and that the United Kingdom is the
+largest consumer, absorbing one-third of the entire production, and that
+England possesses advantages over all other countries for manufacturing
+alizarine--first, by having a splendid supply of the raw material,
+anthracine; secondly, cheaper caustic soda in England than in Germany by
+fully L4 per ton; thirdly, cheaper fuel; fourthly, large consumption at
+our own doors; and, fifthly, special facilities for exporting.
+
+The advantages derived from the development of the alizarine manufacture
+here, it was stated, will benefit other collateral industries, such
+as manufacture of soda, of ordinary sulphuric acid, bichromatic, and
+chlorate of potash, articles used in this manufacture. The lecturer
+considered that the difficulties attending the manufacture of alizarine
+were now overcome, and with sufficient capital and competent chemists
+English manufacturers must be successful.
+
+He then proceeded to explain the source from which nearly all the
+artificial coloring matters are derived, viz., gas tar; showing the
+principal products of this wonderful, complex mixture, of which one
+is anthracine. Alizarine manufacturers originally found scarcity of
+anthracine; at present the supply is in excess of the demand, and the
+price during the last 18 months has fallen from 3s. 6d. to 1s. per unit,
+and the probabilities are that the supply will increase. The quantity of
+gas tar now obtained the lecturer estimated at 500,000 tons per annum,
+and the coal carbonized for gas making, 10,000,000 tons. This quantity
+of tar suffices to produce 9,000 tons of 20 per cent. alizarine.
+
+The lecturer then reviewed, in case of an increased demand for
+anthracine, the probable new sources of obtaining increased supplies of
+coal tar: (1) The destructive distillation of petroleum; (2) coke
+ovens and blast furnaces; (8) the carbonization of coal for general
+manufacturing purposes, using the coal and gas as fuel, and giving tar,
+benzine, and ammonia as residues; and (4) distillation of coal with the
+object of obtaining the principal products, tar and benzine, and as the
+residual product, gas. This part of the lecture was important to dyers
+and printers, the lecturer showing also, in a very interesting way,
+in what manner manufacturers may very considerably economize their
+consumption of coal.
+
+The lecturer explained that while from one ton of coal there was
+obtained on an average about 17 oz. of benzine, by the new method about
+thirty times that amount can be got from the same quantity of coal.
+He also considered in great detail the different processes of the
+carbonization of coal, and of increasing the production of the different
+important residual products of gas tar, and also the best method of
+extracting the benzine. He showed samples of benzine which he produced
+from gas obtained at the Rochdale Road Gasworks, and, further,
+nitro-benzine, aniline, and coloring matters, which he had made from
+this gas benzine.
+
+The lecturer also discussed the effect of the probable increased
+production of tar, ammonia, benzine, etc., as affecting gas companies,
+and said it was anticipated they either would raise the price of gas or
+change the present system of manufacture, which he considered probable.
+The enormous increase in the production of ammonia, of which the larger
+portion at present, as sulphate of ammonia, was used as a fertilizer,
+would no doubt considerably reduce its value. It might even replace soda
+for many purposes, and thus react on our alizarine industry.
+
+He then proceeded to consider the manufacture of alizarine purpurine,
+and divided its manufacture into four stages: 1, the purification of
+crude anthracine; 2, the conversion of the purified anthracine into
+anthraquinone; and 3, the production of sulpho acid of anthraquinone and
+the conversion of this sulpho-acid into alizarine and purpurine. This
+part of the lecture comprised a detailed explanation of the various
+kinds of apparatus required, to be used which were beautifully got up,
+complete working models having been prepared for the occasion. The
+lecturer was of opinion that large consumers would be benefited if
+makers would offer for sale only three distinct coloring matters--iso
+or anthrapurpurine, and flavo-purpurine, leaving it to the dyers and
+printers to produce for themselves the intermediate shades by mixing the
+three colors; and he showed that by reason of the fastness of the shades
+produced by these coloring agents varying considerably, the blue shade
+(alizarine) being much faster then the orange shade (flavo-purpurine),
+consumers were in many instances losers by using mixtures of alizarine
+and flavo-purpurine.
+
+In the course of the lecture many interesting specimens of various
+products were produced and dilated upon, the lecturer fully describing
+the process of purifying the crude anthracine and of the conversion of
+the purified anthracine into anthraquinone.
+
+       *       *       *       *       *
+
+
+
+
+THE PRESERVATION OF MEAT BY CARBONIC ACID.
+
+
+Since 1874, when Professor Kolbe, of Leipsic, first published his
+results on the antiseptic action of salicylic acid, he has made many
+efforts to apply this acid to the preservation of meat, but he has
+invariably found that after the lapse of a few days an unpleasant flavor
+has been developed, which is not that of putridity. If putrid changes be
+noticed, it is a sign that salicylic acid is in insufficient quantity,
+for where it has turned putrid the meat is found to be no longer acid,
+but alkaline. This leads to the assumption that meat is protected from
+change by acids, even by gases of that kind; and in fact it was noticed
+that beef--from 2 to 5 kilos. being taken--when placed in an earthen
+vessel and loosely covered with a wooden cover, was long preserved from
+putridity if the bottom of the vessel contained some hydrochloric acid,
+nitric acid, or aqueous sulphurous acid. The meat, however, no longer
+had the taste of fresh meat, but of such as had long lain in ice.
+Experiments were therefore made with carbonic acid, and these proved
+highly successful. The meat was placed in a cylinder of metal plate, and
+suspended from a rod which crossed the upper part and the lower part.
+A small tube serves to admit a current of carbonic acid from a Kipp's
+apparatus. The lid, which rested in a circular trough of glycerine,
+was traversed by a similar tube in its center, and both tubes could be
+closed with India-rubber tubing and screw taps as soon as sufficient
+carbonic acid gas had traversed the apparatus. At the end of seven,
+fourteen, and twenty-one days it was found that the meat was still quite
+good, and the soup prepared from it was in every respect excellent. At
+the end of the fourth or fifth week the meat thus preserved in the gas
+was still quite free from all putridity; but the broth prepared from it
+no longer tasted so well as fresh bouillon. The experiments were not
+extended over a longer time. Carbonic acid is thus shown to be an
+excellent means of preserving beef from putridity and of causing it to
+retain its good taste for several weeks. Mutton does not preserve so
+well. In eight days it had become putrid; and veal is by no means so
+well preserved as beef. The comportment of beef in an atmosphere of
+carbonic acid, to which carbonic oxide has been added, is curious. A
+number of cylinders were filled in the usual way with such a mixture and
+opened at the end of two or three weeks; in each case the flesh had the
+smell and taste of good, pure meat, but it was not of the gray color
+which meat preserved in carbonic acid gas gradually takes, but appeared
+in the interior, as well as on the outside, of a bright flesh-red color,
+and on the surface here and there, there were white round masses of
+fungoid growth of the size of a 20-pfenning piece, which were removed
+with the slightest rubbing. The flesh lying just below these was found
+to have the same bright red color as that already described. Meat which
+had been for three weeks in such a gas mixture gave a broth which,
+in good taste and freshness, could hardly be distinguished from
+freshly-made bouillon; and the boiled meats could not be distinguished
+either in appearance or taste. The property of carbonic acid to preserve
+meat suggests a use for the large supplies of this gas evolved from the
+earth in many localities. And it is as interesting to determine in
+how far the gas could be of service as an antiseptic during surgical
+operations.
+
+       *       *       *       *       *
+
+
+
+
+REDUCTION OF OXIDIZED IRON BY CARBONIC OXIDE.
+
+
+IT is well known that when the heat is sufficient, carbonic oxide
+reduces the oxide of iron to metal with the production of carbon dioxide
+(carbonic acid). On the other hand, at lower temperatures carbon dioxide
+oxidizes metallic iron, forming carbonic oxide. J. Lowthian Bell's
+celebrated researches (see SCIENTIFIC AMERICAN, p. 199, March 31, 1883)
+established the point of equilibrium where in the presence of both
+monoxide and dioxide the reducing action of the one just counterbalances
+the oxidizing action of the other.
+
+At the suggestion of Prof. R. Akermann, of Stockholm, C.G. Saernstrom has
+conducted a similar series of forty-five experiments, the expense being
+borne by the Jernkontor. About 1 gramme of oxide of iron was placed in a
+porcelain boat, and slid in a porcelain tube 18 millimeters (3/4 inch) in
+diameter and 635 millimeters long (25 inches). This was exposed to the
+action of a current of mixed carbon dioxide and monoxide made by heating
+oxalic acid and concentrated sulphuric acid. It was mixed with carbon
+dioxide as required, then analyzed, and preserved in gasometers holding
+66 liters. Before using, it is passed over phosphorus and chloride of
+calcium, and through sulphuric acid. The porcelain tube and boat were
+heated to from 300 deg. to 600 deg. C. (572 deg. to 1,652 deg. Fahr.) while the gases
+were passing, and then the state of oxidation determined. It was found
+that the larger the quantity of dioxide the higher the degree of
+oxidation, and the larger the proportion of monoxide the lower the
+degree of oxidation.
+
+The details of the experiment indicate that a saving of fuel in the
+blast furnace could best be accomplished by the use of a very hot blast,
+introducing some carbon monoxide into the blast, provided, of course,
+that this gas can be made outside of the blast furnace more cheaply than
+inside of it. Nevertheless, 643 lb. of carbon must be burned to
+every 1,000 lb. of iron reduced, if carbonic oxide is exclusively
+employed.--_Stahl und Eisen_.
+
+       *       *       *       *       *
+
+
+
+
+ON THE ADULTERATION OF SOAP.
+
+By Dr. H. BRACKEBUSCH.
+
+
+The importance of soap as an indispensable article in the household has
+not restrained the adulterators from making it a favorite object of
+their operations, and at the present day soap is only very rarely what
+it should be, the alkaline salt of a fatty acid with about 15 per cent.
+of water, which may be increased in case of soft soaps to 30 per cent.
+at most. The amount of moisture is an immediate signal for adulteration.
+Of all substances that can be used to adulterate soap, water is of
+course the cheapest, and as it is also harmless, this was the first
+point where manufacturers made use of their knowledge. The percentage of
+water was raised to 26 or 28 per cent., and now nearly all the ordinary
+soaps contain that amount when they leave the factory. At first the
+retailers objected to this method, because they had to suffer the loss
+so far as it dried out and lost weight in the store.
+
+The next point was to find some substance that would prevent this rapid
+drying, and it was very soon discovered that those soaps that contained
+an excess of lye retained moisture longer. Henceforth it was only
+necessary to use lyes of extra strength so as to obtain a large yield of
+soap containing an excess of water. The results of this ingenious method
+are before us; in the shops of the soap dealers the bars of soap become
+coated with a crust of white crystals, which is nothing but soda. If a
+few drops of corrosive sublimate be dropped on these crystals, a red
+spot will at once be produced by the formation of mercuric oxide. In
+addition to the deception of the public who buy such soaps, this alkali
+destroys clothes washed with it, as the fiber of the tissues is directly
+attacked by it, while the proper action of the soap depends on its
+enveloping the particles of dirt and carrying them off.
+
+Soap is subject to another kind of adulteration called filling, or
+weighting. Soapstone and similar mineral substances are added to the
+finished soap to increase its weight. But it may be added that this
+fraudulent weighting is rare. Large establishments cannot take the risk
+of being detected in such avaricious practices, and small ones scarcely
+have the apparatus at their disposal for making a uniform mixture which
+will not arouse suspicion.
+
+Now soaps are frequently found in the market that scarcely deserve this
+name. Mineral soap, cold water soap, etc., are the names inscribed on
+the placards behind which is buried a preparation consisting for the
+greater part of water-glass. The well-known water-glass is a silicate of
+soda or potash dissolved in free or caustic soda, or potash. There was
+a time when it excited great hopes, and its introduction into the
+household for washing was dreamed of, but it was soon found that
+its caustic properties made their appearance at a relatively low
+temperature. Hence we often find the notice, "TO BE USED COLD," printed
+in bold letters on the wrappers. This product is obtained by thickening
+water-glass with stearine, oleine, or any other easily saponifiable fat.
+As it takes but very little of the substances named to make an article
+closely resembling soap, of course the product is very cheap. There does
+not seem to be any limit to the amount of water in it; at least the
+author found in one kind of mineral soap from Berlin 58 per cent. of
+water. Water-glass soaps do not dissolve readily in water, they make but
+little suds, and render the skin hard and unpliable. Admitting that they
+are suitable for many purposes, nothing can be said against their sale
+so long as they appear under names which preclude their being confounded
+with other soaps. Nevertheless, there is always this danger--that
+water-glass may come into general use in making soap, and this is to be
+deplored. Water-glass soaps are easily recognized by their insolubility
+in moderately strong alcohol, the water-glass remaining behind in a
+gelatinous form.
+
+Great deception has been practiced under such names as "almond soap,"
+etc. Fortunately the difference between various kinds of fat are not
+very great from a chemical point of view, although it is always an
+unpleasant thought that the fat from animals that have died may return
+to the house in the form of soap. A white or yellow soap having a good
+smell is not made from bad fat, and hence is more appetizing.
+
+A method formerly much in use consisted in mixing green soap with starch
+paste, a mixture that could not be detected by the naked eye, especially
+if colored with caramel. On attempting to dissolve it in ordinary
+burning alcohol, a white coagulum forms.
+
+From the foregoing it is sufficiently evident that those who buy soap
+to sell again have every reason to keep a sharp lookout on those who
+furnish them with soap.--_Polyt. Notiz._
+
+       *       *       *       *       *
+
+
+
+
+BOVINE AND HUMAN MILK: THE DIFFERENCE IN ITS ACTION AND COMPOSITION.
+
+By C. HUSSON.
+
+
+M. Meynet, in a remarkable report upon condensed milk, has raised a
+question which it is important to have solved in the interests of
+infants. This is my excuse for presenting to the French Society of
+Hygiene certain observations on this subject.
+
+Is woman's milk richer in fatty matters and sugar in proportion to the
+caseine than that of the cow? Is the affirmative, sustained by a large
+number of chemists, a mistake that ought to be corrected?
+
+Such is the question that needs to be answered.
+
+In my last work on milk, my aim was to report new experiments, and hence
+I gave only the analysis of M. Colawell. By the side of the essays of
+MM. Doyere, Millon, Commaille, and Wurtz, I put those of Liebig, and
+quoted an interesting chapter written on this question by M. Caulier,
+in Dechambre's Encyclopedic Dictionary. These are the authorities upon
+which to base any opposition to the analyses of Boussingault, Regnault,
+Littre, and Simon, savants of no less renown.
+
+The differences are easily explained.
+
+Woman's milk is rarely to be had in sufficient abundance to make a
+complete analysis of it. In the country especially a few precious drops,
+obtained with difficulty, are carried off in a thimble to be placed
+under a microscope, where the number of fat globules are counted, and it
+is examined to see if they are not mixed with globules of colostrum.
+
+It will be necessary at the outset to know whether the analyses given
+refer to milk drawn from the breast before nursing, or at the end. In
+the former case there will be an excess of caseine, in the second an
+excess of fat present. This is the reason that in nursing infants the
+intervals should not be too long, or the child will not be able to empty
+the breast completely, and it will obtain a milk too rich in caseine,
+too poor in butter, and one that it cannot digest.
+
+This is the first proof of the importance of fatty matters for the
+alimentation of babes.
+
+Let us turn to the second.
+
+At birth, when the milk is still in a state of colostrum, the fluid
+contains a variable quantity of albumen coagulable by heat, much less
+caseine, and an excess of butter and sugar.
+
+Cow's milk, immediately after calving, contains more butter and less
+caseine than milk produced some time later, when the specific character
+of ruminants begins to appear in the calf, that is to say, when it
+commences to graze the milk coagulates in the stomach. As in other
+mammals, an excess of fat helps digestion by subdividing the caseine and
+emulsifying it. But the milk of an animal recently calved is reserved
+for its young, and it is not until the time of weaning that the lacteal
+fluid is offered for human consumption.
+
+Thus it is that the nursling of a day receives milk many months old and
+heavily loaded with caseine. This milk it cannot digest because the
+emulsifying element, the fat, is not present in it in sufficient
+quantity in proportion to the coagulable matter. We must not forget
+either that the difference in coagulation holds also with respect to
+difference in the age and in the kind of animal. Just so the rennet of a
+sucking calf has a greater power of coagulating cow's milk than that of
+a sheep, and _vice versa_.
+
+"Clinical observation," says Dr. Condereau, "shows that all young
+infants digest human milk very easily and cow's milk very imperfectly.
+When it is fed on the latter, in the excreta will be found numerous
+fragments, sometimes very bulky, of undigested caseine. In most cases
+this caseine suffers more or less decomposition in the alimentary
+canal, which gives to the feces a tainted odor recalling that of putrid
+Roquefort cheese.
+
+"The excrement vary in appearance as much as they do in odor. Frequently
+the caseous clots are not to be seen, and the stool has a clammy look
+reminding one of glazier's putty, while the color varies from dirty
+white to pale grayish yellow. That is due to the fact that the
+composition of the milk from different animals is far from being
+constant.
+
+"The proportions of albumen to those of caseine are especially varied.
+For woman's milk the proportions are as 100 to 122.72. In goat's milk
+the proportions are 100 to 173.09. In cow's milk it is as 100 to 289.20.
+
+"The conclusion is this: Caseine is not a food at all for the new born
+during a space of time, the duration of which is to be determined
+experimentally.
+
+"This substance is a harmful burden that interferes with the regular
+action of the digestive organs. It is a premature food, and the more
+abundant the more injurious.
+
+"Albumen on the contrary remains fluid in the presence of the gastric
+juice; it is separated from the other aliments by coagulation of the
+caseine. It is absorbed entire either in its natural state or in form of
+peptone."
+
+According to clinical observation, it is still the fats that give to
+milk its hygienic value, and the excess of caseine is an obstacle to its
+digestion.
+
+However, if cow's milk is not easily digested by children, experience
+proves that there are other kinds of milk, from other animals, which
+young stomachs are able to bear more easily. There are many proofs of
+this fact.
+
+M. Tarnier, speaking before the Academy of Medicine on the artificial
+nourishment of the new born, reports that the milk of cows and goats,
+pure or diluted in different ways, that of condensed milk and Biedert's
+cream, have always given disastrous results at the Maternite in Paris,
+but that the mortality of the new born was considerably reduced from the
+day when ass's milk was introduced as food.
+
+Ass's milk was given pure for six weeks or two months; then cow's milk
+diluted with one-half water until six months old, followed by pure cow's
+milk. This is the most rational course of artificial feeding.
+
+Prof. Parrot reports analogous results obtained at the nursery opened at
+the Hospice des Enfants Assistes. By the aid of ass's milk he saved a
+number of the little syphilitics.
+
+The following are the numerical results: 86 infants with hereditary
+taint of syphilis have been at the nursery. Of 6 fed exclusively on
+cow's milk, only 1 survived and the other 5 died. Forty-two were suckled
+by goats, of which 8 lived, 34 are dead, which is equal to a mortality
+of 80.9 per cent. Thirty-eight were suckled by an ass, of which 28 lived
+and 10 died; a mortality of 26.3 per cent.
+
+Certainly these figures prove eloquently enough what chemical analysis
+shows, that ass's milk, being better borne by the infant's stomach,
+ought to have a composition resembling that of woman's milk. This
+analogy is not found to consist in the quantity of fat, but in the small
+amounts of dry residue (total solids) and of caseine.
+
+Let us now examine the objections raised by M. Meynet.
+
+Food has a considerable influence upon the composition of milk; this
+fact, stated by M. Riche in his treatise on chemistry, seem to be
+accepted by all.
+
+The milk of carnivorae is excessively rich in caseine; that of herbivorae
+much less.
+
+The food of woman, who enjoys a mixed alimentation, ought to have a
+composition intermediate between these two, and consequently ought to
+contain more caseine than that of the plant eaters. This is the logical
+deduction.
+
+At first this reasoning misleads one, but numerous objections present
+themselves.
+
+The food, no doubt, has some influence upon the composition of the milk
+of animals of the same species, but every animal can secrete something
+independent of any food, just as one kind secretes musk, another
+castor, etc. Yet it would not be an anomaly if an excess of caseine
+in proportion to the other substances was a true characteristic of
+ruminants.
+
+But we admit that the milk of all mammals ought to have identically the
+same composition if their food suffered no modifications.
+
+What is the food of ruminants? Without doubt it is essentially
+vegetable, and the plants of the field constitute the element par
+excellence of their nurture. These plants contain a large excess of
+carbohydrates in proportion to the nitrogenous.
+
+But what are these other substances? What role do they play in
+digestion?
+
+They are composed in great part of fibers and cells that suffer no
+change in the animal economy, and which are not acted upon by the
+gastric juice, as proved by their occurrence in excreta. The carbon is
+found almost unchanged, so that the excrements of herbivoiae, when dried,
+form a valuable fuel. Ruminants are compelled, in order to obtain
+nourishment from the plants that they eat, to extract their juices by
+repeated pressure (as in chewing the cud); and what do these soluble
+juices contain? Some saccharine substances, a little fat, but mostly
+albumen and vegetable caseine, that is to say, the substance which
+predominates in their lacteal secretions.
+
+What, on the contrary, is the food of woman?
+
+No doubt she gains much strength from the lean, muscular flesh that she
+eats, but besides this she has butter, oil, fats of all kinds, sugar,
+starches, and alcoholic beverages, all of which are favorable to the
+production of butter in the milk. Hence, aside from her physical
+constitution, the food of woman alone explains the relative excess of
+non-nitrogeneous substances.
+
+Nitrogenous articles of food are expensive, while the other forms of
+nutriment are to be had in the form of potatoes, beans, and bread,
+products sold at a reasonable price. Yet logic demands that there shall
+be an excess of butter in proportion to caseine in the milk.
+
+The discrepancies in analyses of woman's milk are easily explained by
+the mobile and impressible character of woman.
+
+If bad treatment and bee stings are able to modify the composition of
+cow's milk, how much more ought the emotions of all sorts, which disturb
+the heart and head of woman, to change the composition of her milk?
+
+But if new analyses seem to be needed, they ought to be made. This
+question is too important to rest in suspense. The mean composition
+of human milk for the first two months after delivery ought to be
+established. In chemistry, as in mathematics, figures alone are
+convincing. But from what has been said it is logical to conclude that
+an excess of caseine in milk is unfavorable to good digestion, while
+an excess of butter is favorable to it.--_Translated from Journal
+d'Hygiene, March 1, 1883_.
+
+       *       *       *       *       *
+
+
+
+
+CEREAL FOODS IN THEIR RELATION TO HEALTH AND DISEASE.
+
+By F.R. CAMPBELL, A.B., M.D.
+
+
+The cereals are subject to many diseases which retard their development,
+rendering them unfit for food, and even poisonous. The relation of
+unwholesome foods to the diseases of the animal body are now being
+thoroughly studied, recent advances in chemistry and microscopy
+contributing valuable aid to the prosecution of such investigations.
+Some enthusiastic advocates of the germ theory of disease believe that
+many, if not all, the so-called disease germs may be transplanted into
+the human system with the food ingested. But whatever may be the real
+truth in regard to this subject, it has been positively demonstrated
+that many diseases of the human body may be produced by unwholesome
+food. The specific symptoms produced in man by the various grain
+diseases are not accurately known, consequently our remarks upon this
+subject must be of a very general character.
+
+Pappenheim divides the diseases of the cereals into two classes,
+internal and external. The internal diseases are those depending upon
+conditions of soil, climate, cultivation, etc., and may be neglected in
+our discussion, as they produce no special disease of the body, only
+impairing the nutritive value of the grain.
+
+The external diseases are of much greater importance, as they probably
+produce some of the most fatal maladies to which the human race is
+subject. These external diseases of the cereals are due to parasites,
+which may be either of an animal or vegetable nature. Among the animal
+parasites may be mentioned the _weevil, vibrio tritici_, which feeds
+upon the starch cells of the grain. Grain attacked by this parasite was
+at one time supposed to be injurious to health.
+
+In 1844 the French Commission appointed to examine grain condemned a
+large quantity imported with this parasite, but afterward reconsidered
+their decision and permitted its sale, concluding that it was deficient
+in nutritive properties, but not otherwise unwholesome. Rust is the most
+common disease of the cereals, produced by vegetable parasites. Like
+the other diseases of this class, it is most prevalent in warm, damp
+seasons.
+
+Prof. Hensboro is of the opinion that rust is but an earlier stage of
+mildew or blight, the one form of parasite being capable of development
+into the other, and the fructification characteristic of the two
+supposed genera having been evolved on one and the same individual.
+
+Blight is a term loosely applied to a number of parasitic diseases.
+In it are included mildew, cories, and even rust and smut. The fungi
+producing these diseases attack the plant and seed at various stages of
+its growth. The whole kernel is affected, and not merely the external
+coat, as is sometimes maintained. When blighted grain is sown, the
+disease recurs the following year, often making it necessary to import
+new seed before the disease can be eradicated. Various remedies have
+been used to destroy the spores of these fungi, but all are uncertain
+and some are dangerous to health. Special machinery and methods have
+been employed in the mills to separate the mildew from the grain. Some
+of these succeed in removing the fungi and discoloration from the
+surface of the grain, but have no effects upon the parts within.
+Blighted grain is soft, and has an unpleasant taste and smell, and bread
+made of it is liable to be heavy and sodden.
+
+It is undeniable that the use of blighted grain as food is exceeding
+dangerous to health. It is a well known fact that vegetable parasites
+may attack animals; the silk worm disease produced by the _Botrytis
+baniana_, being an example. It is stated that the same vegetable
+parasites which produce plant diseases, when transmitted to the animal
+body produce special affections, the form and appearance of the germs
+being altered by their environments. The same germs developed under
+different conditions of temperature and surrounding medium, assume forms
+so various that they have been supposed to belong to different species
+and even different genera. If there is any truth, then, in the germ
+theory of disease, it is not so very improbable that a fungus which
+will produce blight in grain may cause cholera or tetanoid fever in an
+animal.
+
+Hallier, the famous physiological botanist, observed in 1867 that there
+was a peculiar disease of the rice plant associated with an epidemic of
+cholera. Rice plants fertilized with the discharges of cholera patients
+were affected with blight. A concentrated infusion of the blighted grain
+would produce changes in all animal substances, blood and albumen being
+converted into thin odorless products resembling in every respect the
+material found in the kidneys of cholera patients.
+
+The most formidable of the diseases attributed to the use of diseased
+grain is cerebro-spinal meningitis, commonly known as spotted or blanoid
+fever. The disease is rare in England, but is frequently epidemic in the
+United States, in Ireland, and on the Continent. In 1873, in the State
+of Massachusetts alone, 747 persons died of it, and other epidemics even
+more fatal have lately occurred in New York and Michigan. The disease is
+a nervous fever attended with convulsions, the pathological lesion being
+congestion and inflammation of the membrane of the spinal cord and
+brain. Dr. Richardson in writing on the nature and causes of spotted
+fever concludes that it is due to the use of diseased vegetable
+substances, especially grain, and from a careful analysis of the
+statistics of this disease reported by the Michigan State Board of
+Health considers it demonstrated that "under favoring condition for its
+action diseased grain received as a food is the primary cause of the
+phenomena which characterize the disease." These views are substantiated
+by the experiments of Dr. H. Day, who found that by feeding rabbits on
+unsound grain, spasmodic affections were produced, due to inflammation
+of the membranes of the spinal cord and brain.
+
+In warm climates, pellagra or Italian leprosy is said to be produced by
+eating diseased maize, which forms the principal article of food among
+the poorer classes of the rural districts. Pellagra is epidemic in
+northern Italy and the south of France. The disease is manifested by a
+redness and discoloration of the exposed parts of the body. It is most
+active during the hot weather, the inflammation subsiding in the winter,
+leaving a pigmentation of the skin. Each year the symptoms become more
+alarming, nervous disorders finally setting in, and a large number die
+insane. The disease is most prevalent in the country. In the towns,
+where maize is supplemented by other articles of food, it does not
+exist.
+
+Ergot is a very common disease of the cereals. The fungus producing it
+was discovered in 1853, but for centuries previous its injurious effects
+upon the human body were recognized, and it was observed that ergot of
+rye was the most poisonous. Taken in large doses, ergot will produce
+nausea, vomiting, diarrhoea, headache, and weakness of the heart. In
+small repeated doses it will produce contraction of all the unstriped
+muscles, as those of the blood vessels, the womb, and intestines.
+Ergotium is the name given to the disease produced by the continued use
+of grain affected by this fungus. Aitken describes it as "a train of
+morbid symptoms produced by the slow and cumulative action of a specific
+poison peculiar to wheat and rye, which produces convulsions, gangrene
+of the extremities, and death. In countries where rye bread is much used
+ergotium is sometimes epidemic. This was a frequent calamity before
+the introduction of suitable purifiers into the mills. There are two
+varieties of the disease, the convulsive and the gangrenous. The
+convulsive form begins with tingling of the extremities, drowsiness, and
+headache, followed by pain in the joints, violent muscular contractions,
+and death. The gangrenous variety begins with coldness and weakness
+of the extremities followed by gangrene and sloughing. This form is
+somewhat more fatal than the convulsive, the mortality of those affected
+being about 90 per cent.
+
+Mouldy grain and bread have also caused poisoning. Prof. Varnell states
+that "six horses died in three days from eating mouldy oats. There was a
+large amount of matted mycelium, and this when given to other horses for
+experiment, killed them within thirty-six hours." The writer has himself
+seen seven hogs die within a few days while being fed on mouldy corn.
+Flour which has become stale may produce similar injurious effects,
+although most of the germs are destroyed in the process of baking. It is
+quite probable, however, that a poisonous substance is generated by the
+mould fungus, which cannot be destroyed in this way.--_Milling World_.
+
+       *       *       *       *       *
+
+
+
+
+MOIST AIR IN LIVING ROOMS.
+
+
+The injurious effect of dry heat in inhabited rooms is quite generally
+known, and different methods have been suggested for moistening the
+air. To test the effectiveness of these methods, J. Melikow, of St.
+Petersburg, has estimated the quantity of moisture in the air of
+different rooms by means of August's psychrometer, and also tested
+the different methods of increasing the moisture. He arrived at the
+following results, which are of decided practical value:
+
+1. When large and small open vessels filled with water are placed in the
+room, they do not increase the moisture of the air at all.
+
+2. Tubs of water of the same temperature as the room and parlor
+fountains have very little effect.
+
+3. When hot air is used, open vessels of water placed over the pipes
+have no effect at all.
+
+4. Wolpert's revolving wheel increases the moisture but slightly.
+
+5. The Russian tea machine and the steam pulverizer (atomizer) are
+effective but only for a short time.
+
+6. Wet hand towels suspended in a room are insufficient.
+
+7. Of all the methods tested, the most efficient seemed to be to hang up
+a number of wet cloths on a winch or some contrivance that permits
+of turning them, so as to hasten their giving out moisture to the
+air.--_Med. Zeitung_.
+
+       *       *       *       *       *
+
+[The following article is from the June number of the _American
+Naturalist_, edited by Prof. A. S. Packard, Jr., and Prof. E. D. Cope.
+Published by McCalla & Stavely, Philadelphia, Pa.]
+
+
+
+
+THE DEVELOPMENTAL SIGNIFICANCE OF HUMAN PHYSIOGNOMY.
+
+[Footnote: Abstract of a lecture delivered before the Franklin Institute
+of Philadelphia, Jan. 20.1881, in exposition of principles laid down in
+The Hypothesis of Evolution, New Haven, 1870, p. 31.]
+
+By E. D. COPE.
+
+
+The ability to read character in the form of the human face and figure
+is a gift possessed by comparatively few persons, although most
+people interpret, more or less correctly, the salient points of human
+expression. The transient appearances of the face reveal temporary
+phases of feeling which are common to all men; but the constant
+qualities of the mind should be expressed, if at all, in the permanent
+forms of the executive instrument of the mind, the body. To detect the
+peculiarities of the mind by external marks has been the aim of the
+physiognomist of all times; but it is only in the light of modern
+evolutionary science that much progress in this direction can be made.
+The mind, as a function of part of the body, partakes of its perfections
+and its defects, and exhibits parallel types of development. Every
+peculiarity of the body has probably some corresponding significance in
+the mind; and the causes of the former are the remoter causes of the
+latter. Hence, before a true physiognomy can be attempted, the origin
+of the features of the face and general form must be known. Not that
+a perfect physiognomy will ever be possible. A mental constitution so
+complex as that of man cannot be expected to exhibit more than its
+leading features in the body; but these include, after all, most of what
+it is important for us to be able to read, from a practical point of
+view.
+
+[Illustration: FIG. 1.--Section of skull of adult orang-outang _(Simia
+satyrus)_. FIG. 2.--Section of skull of young orang, showing relatively
+shorter jaws and more prominent cerebral region.]
+
+The present essay will consider the probable origin of the structural
+points which constitute the permanent expression. These may be divided
+into three heads, viz.:
+
+1. Those of the general form or figure.
+
+2. Those of the surface or integument of the body, with its appendages.
+
+3. Those of the forms of the head and face.
+
+[Illustration: FIG. 3.--Figure of infant at birth; _a_, front of face.
+(The eye is too far posterior in this figure.)]
+
+The principal points to be considered under each of these heads are the
+following:
+
+
+I. THE GENERAL FORM.
+
+1. The size of the head.
+
+2. The squareness or slope of the shoulders.
+
+3. The length of the arms.
+
+4. The constriction of the waist.
+
+5. The width of the hips.
+
+6. The length of the leg, principally of the thigh.
+
+7. The sizes of the hands and feet.
+
+8. The relative sizes of the muscles.
+
+[Illustration: FIG. 4.--Portrait of a girl at five years of age.]
+
+
+II. THE SURFACES.
+
+9. The structure of the hair (whether curled or not).
+
+10. The length and position of the hair.
+
+11. The size and shape of the nails.
+
+12. The smoothness of the skin.
+
+13. The color of the skin, hair, and irides.
+
+[Illustration: FIG. 5.--Portrait of the same at seventeen years, showing
+the elongation of the facial region, and less protuberance of the
+cerebral.]
+
+
+III. THE HEAD AND FACE.
+
+14. The relative size of the cerebral to the facial regions.
+
+15. The prominence of the forehead.
+
+16. The prominence of the superciliary (eyebrow) ridges.
+
+17. The prominence of the alveolar borders (jaws).
+
+18. The prominence and width of the chin.
+
+19. The relation of length to width of skull.
+
+20. The prominence of the malar (cheek) bones.
+
+21. The form of the nose.
+
+22. The relative size of the orbits and eyes.
+
+23. The size of the mouth and lips.
+
+[Illustration: FIG. 6.--Profile of a Luchatze negro woman, showing
+deficient bridge of nose and chin, and elongate facial region and
+prognathism.]
+
+The significance of these, as of the more important structural
+characters of man and the lower animals, must be considered from two
+standpoints, the paleontological and the embryological. The immediate
+paleontological history of man is unknown, but may be easily inferred
+from the characteristics displayed by his nearest relatives of the order
+Quadrumana. If we compare these animals with man, we find the following
+general differences. The numbers correspond to those of the list above
+given:
+
+I. _As to General Form_.--(3) In the apes the arms are longer; (8) the
+extensor muscles of the leg are smaller.
+
+II. _As to Surface_.--(9) The body is covered with hair which is not
+crisp or woolly; (10) the hair of the head is short; (18) the color of
+the skin, etc., is dark.
+
+III. _As to Head and Face_.--(14) The facial region of the skull is
+large as compared with the cerebral; (15) the forehead is not prominent,
+and is generally retreating; (16) the superciliary ridges are more
+prominent; (17) the edges of the jaws are more prominent; (18) the chin
+is less prominent; (20) the cheek bones are more prominent; (21) the
+nose is without bridge, and with short and flat cartilages; (22) the
+orbits and eyes are smaller (except in Nyctipithecus); (24) the mouth is
+small and the lips are thin.
+
+[Illustration: FIG. 7.--Face of another negro, showing flat nose, less
+prognathism and larger cerebral region. From Serpa Pinto.]
+
+It is evident that the possession of any one of the above
+characteristics by a man approximates him more to the monkeys, so far
+as it goes. He retains features which have been obliterated in other
+persons in the process of evolution.
+
+[Illustration: FIG.8.--Portrait of Satanta, a late chief of the Kiowas
+(from the Red river of Texas), from a photograph. The predominance of
+the facial region, and especially of the malar bones, and the absence of
+beard, are noteworthy.]
+
+In considering the physiognomy of man from an embryological standpoint,
+we must consider the peculiarities of the infant at birth. The numbers
+of the following list correspond with those already used (Fig. 3).
+
+I. _As to the General Form_.--(1) The head of the infant is relatively
+much larger than in the adult; (3) the arms are relatively longer;
+(4) there is no waist; (6) the leg, and especially the thigh, is much
+shorter.
+
+II. _As to the Surfaces_.--(10) The body is covered with fine hair, and
+that of the head is short.
+
+III. _The Head and Face_.--(14) The cerebral part of the skull greatly
+predominates over the facial; (16) the superciliary ridges are not
+developed; (17) the alveolar borders are not prominent; (20) the malar
+bones are not prominent; (21) the nose is without bridge and the
+cartilages are flat and generally short; (22) the eyes are larger.
+
+[Illustration: FIG. 9.--Australian native (from Brough Smyth), showing
+small development of muscles of legs and prognathism.]
+
+It is evident that persons who present any of the characters cited in
+the above list are more infantile or embryonic in those respects than
+are others; and that those who lack them have left them behind in
+reaching maturity.
+
+We have now two sets of characters in which men may differ from each
+other. In the one set the characters are those of monkeys, in the other
+they are those of infants. Let us see whether there be any identities in
+the two lists, i. e., whether there be any of the monkey-like characters
+which are also infantile. We find the following to be such:
+
+I. _As to General Form_.--(3) The arms are longer.
+
+II. _Surface_.--(10) The hair of the head is short, and the hair on the
+body is more distributed.
+
+III. _As to Head and Face_.--(21) The nose is without bridge and the
+cartilages are short and flat.
+
+Three characters only out of twenty-three. On the other hand, the
+following characters of monkey-like significance are the opposites of
+those included in the embryonic list: (14) The facial region of the
+skull is large as compared with the cerebral; (15) the forehead is not
+prominent; (16) the superciliary ridges are more prominent; (17) the
+edges of the jaws are more prominent. Four characters, all of the face
+and head. It is thus evident that in attaining maturity man resembles
+more and more the apes in some important parts of his facial expression.
+
+[Illustration: Esequibo Indian woman, showing the following
+peculiarities: deficient bridge of nose, prognathism, no waist, and
+(the right hand figure) deficiency of stature through short femur. From
+photographs by Endlich.]
+
+It must be noted here that the difference between the young and
+embryonic monkeys and the adults is quite the same as those just
+mentioned as distinguishing the young from the adult of man (Figs. 1 and
+2). The change, however, in the case of the monkeys is greater than
+in the case of man. That is, in the monkeys the jaws and superciliary
+ridges become still more prominent than in man. As these characters
+result from a fuller course of growth from the infant, it is evident
+that in these respects the apes are more fully developed than man.
+Man stops short in the development of the face, and is in so far more
+embryonic.[1] The prominent forehead and reduced jaws of man are
+characters of "retardation." The characters of the prominent nose with
+its elevated bridge, is a result of "acceleration," since it is a
+superaddition to the quadrumanous type from both the standpoints of
+paleontology and embryology.[2] The development of the bridge of the
+nose is no doubt directly connected with the development of the front of
+the cerebral part of the skull and ethmoid bone, which sooner or later
+carries the nasal bones with it.
+
+[Footnote 1: This fact has been well stated by C. S. Minot in the
+_Naturalist_ for 1882, p. 511.]
+
+[Footnote 2: See Cope, The Hypothesis of Evolution, New Haven, 1870, p.
+31.]
+
+[Illustration: The Venus of the Capitol (Rome). The form and face
+present the characteristic peculiarities of the female of the
+Indo-European race.]
+
+If we now examine the leading characters of the physiognomy of three
+of the principal human sub-species, the Negro, the Mongolian, and the
+Indo-European, we can readily observe that it is in the two first named
+that there is a predominance of the quadrumanous features which are
+retarded in man; and that the embryonic characters which predominate are
+those in which man is accelerated. In race description the prominence
+of the edges of the jaws is called prognathism, and its absence
+orthognathism. The significance of the two lower race characters as
+compared with those of the Indo-European is as follows:
+
+_Negro_.--Hair crisp (a special character), short (quadrum. accel.);
+prognathous (quadrum. accel.); nose flat, without bridge (quadrum.
+retard)[1]; malar bones prominent (quadrum. accel.); beard short
+(quadrum. retard.); arms longer (quadrum. accel.); extensor muscles of
+legs small (quadrum. retard.).
+
+[Footnote 1: In the Bochimans, the flat nasal bones are co-ossified with
+the adjacent elements as in the apes (Thulie).]
+
+_Mongolian_.--Hair straight, long (accel.); jaws prognathous (quadrum.
+accel.); nose flat or prominent with or without bridge; malar bones
+prominent (quadrum. accel.); beard none (embryonic); arms shorter
+(retard.); extensor muscles of leg smaller (quad. retard.).
+
+_Indo-European_.--Hair long (accel.); jaws orthognathous (embryonic
+retard.); nose (generally) prominent with bridge (accel.); malar bones
+reduced (retard.); beard long (accel.); arms shorter (retard.); extensor
+muscles of the leg large (accel.).
+
+The Indo-European race is then the highest by virtue of the acceleration
+of growth in the development of the muscles by which the body is
+maintained in the erect position (extensors of the leg), and in those
+important elements of beauty, a well-developed nose and beard. It is
+also superior in these points in which it is more embryonic than the
+other races, viz., the want of prominence of the jaws and cheekbones,
+since these are associated with a greater predominance of the cerebral
+part of the skull, increased size of cerebral hemispheres, and greater
+intellectual power.
+
+A comparison between the two sexes of the Indo-Europeans expresses their
+physical and mental relations in a definite way. I select the sexes of
+the most civilized races, since it is in these, according to Broca and
+Topinard, that the sex characters are most pronounced. They may be
+contrasted as follows. The numbers are those of the list already used.
+I first consider those which are used in the tables of embryonic,
+quadrumanous, and race characters:
+
+           MALE.                       FEMALE.
+               I. _The General Form_.
+   2. Shoulders square.          Shoulders slope.
+   4. Waist less constricted.    Waist more constricted.
+   5. Hips narrower.             Hips wider.
+   6. Legs longer.               Legs shorter (very frequently).
+   8. Muscles larger.            Muscles smaller.
+
+               II. _The Integuments, etc_.
+  10. More hair on body, that    Less hair on body, that of head
+      of head shorter; beard.    longer; no beard.
+  12. Skin rougher (generally).  Skin smoother.
+
+               III. _The Head and Face_.
+  16. Superciliary ridges more   Superciliary ridges low.
+      prominent.
+  22. Eyes often smaller.        Eyes often larger.
+
+[Illustration: The Wrestler; original in the Vatican. This figure
+displays the characters of the male Indo-European, except the beard.]
+
+The characters in which the male is the most like the infant are two,
+viz., the narrow hips and short hair. Those in which the female is most
+embryonic are five, viz., the shorter legs, smaller muscles, absence of
+beard, low superciliary ridges, and frequently larger eyes. To these may
+be added two others not mentioned in the above lists; these are 1, the
+high pitched voice, which never falls an octave, as does that of the
+male; and 2, the structure of the generative organs, which in all
+mammalia more nearly resemble the embryo and the lower vertebrata in the
+female than in the male. Nevertheless, as Bischoff has pointed out, one
+of the most important distinctions between man and the apes is to be
+found in the external reproductive organs of the female.
+
+From the preceding rapid sketch the reader will be able to explain the
+meaning of most of the peculiarities of face and form which he will
+meet with. Many persons possess at least one quadrumanous or embryonic
+character. The strongly convex upper lip frequently seen among the lower
+classes of the Irish is a modified quadrumanous character. Many people,
+especially those of the Sclavic races, have more or less embryonic
+noses. A retreating chin is a marked monkey character. Shortness
+of stature is mostly due to shortness of the femur, or thigh; the
+inequalities of people sitting are much less than those of people
+standing. A short femur is embryonic; so is a very large head. The faces
+of some people are always partially embryonic, in having a short face
+and light lower jaw. Such faces are still more embryonic when the
+forehead and eyes are protuberant. Retardation of this kind is
+frequently seen in children, and less frequently in women. The length of
+the arms would appear to have grown less in comparatively recent times.
+Thus the humerus in most of the Greek statues, including the Apollo
+Belvidere, is longer than those of modern Europeans, according to a
+writer in the Bulletin de la Societe d'Anthropologie of Paris, and
+resembles more nearly that of the modern Nubians than any other people.
+This is a quadrumanous approximation. The miserably developed calves of
+many of the savages of Australia, Africa, and America are well known.
+The fine, swelling gastroenemius and soleus muscles characterize the
+highest races, and are most remote from the slender shanks of the
+monkeys. The gluteus muscles developed in the lower races as well as
+in the higher distinguish them well from the monkeys with their flat
+posterior outline.
+
+It must be borne in mind that the quadrumanous indications are found in
+the lower classes of the most developed races. The status of a race or
+family is determined by the percentage of its individuals who do and do
+not present the features in question. Some embryonic characters may
+also appear in individuals of any race, as a consequence of special
+circumstances. Such are, however, as important to the physiognomist as
+the more normal variations.
+
+Some of these features have a purely physical significance, but the
+majority of them are, as already remarked, intimately connected with
+the development of the mind, either as a cause or as a necessary
+coincidence. I will examine these relations in a future article.
+
+       *       *       *       *       *
+
+
+
+
+THE PRODUCTION OF FIRE.
+
+
+In 1867 the Abbe Bourgeois found at Thenay, near Pont-levoy
+(Loir-et-Cher), in a marly bank belonging to the most ancient part of
+the middle Tertiary formation, fragments of silex which bore traces of
+the action of fire. This fire had not been lighted by accidental causes,
+for, says Mr. DeMortillet (_Le Prehistorique_, p. 90), the causes of
+instantaneous conflagrations can be only volcanic fires, fermentations,
+and lightning. "Now, in the entire region there is no trace of volcanic
+action, and neither are there any traces of turfy or vegetable deposits
+capable of giving rise to spontaneous inflammations--phenomena that
+are always very rare and very exceptional, as are also conflagrations
+started by lightning. Well, in the Thenay marls, the pieces of silex
+that had undergone the action of fire were found disseminated at
+different levels, and this could not have been a simple accident, but
+was evidently something that had been done intentionally. There existed,
+then, during the Aquitanian epoch, a being who was acquainted with fire
+and knew how to produce it."
+
+Mr. De Mortillet supposes that this being was an animal intermediate
+between man and the monkey, which he calls the _anthropopithecus_.
+
+This precursor of man made use of fire for splitting silex and
+manufacturing from it instruments whose cutting edge he perfected by
+means of a series of retouchings produced by slight percussions upon one
+of the surfaces only.
+
+I shall not enter in this place upon a discussion as to the existence
+of an anthropopithecus or Tertiary man, whom every one does not as yet
+accept, but will confine myself to giving the facts as to the use of
+fire in the remotest epochs, incontestable proofs of which exist from
+the time at which Quaternary man made his appearance. How this was
+discovered is indicated, according to Aryan tradition, by the Vedic
+hymns. The ancestors of the Aryans, these tell us, had seen the lighting
+dart forth from the shock of black clouds. They had seen the spark that
+fired the forests issue from the friction of dry branches agitated by
+the storm. They took a branch of soft wood, _arani_, and passing a thong
+around a branch of hard wood, _pramontha_, they caused it to revolve
+rapidly in a cavity in the _arani_, and thus evoked the god _Agni_, whom
+they nourished with libations of clarified butter, _soma_.
+
+The _Pramontha_, became the _Prometheus_ of the Greeks, the Titan who
+stole the fire, and it is from the Sanscrit _Agni_ that is derived the
+Latin _Ignis_, "fire," and the Greek [Greek: Agnos], "pure," and the
+_Agnus Dei_ of the Christians, who purifies all.
+
+Orientalists generally agree that the sign which is seen under the forms
+[inline illustration], [inline illustration], or [inline illustration],
+on a large number of objects of Aryan origin is a sort of sacred
+hieroglyphic, representing the _arani_ or _svastika_, formed of two
+pieces of soft wood fixed by four pins in such a way as not to revolve
+under the pressure of the Pramontha.
+
+This process of producing fire is also found among a host of more or
+less savage peoples, and especially in India, where, during the last
+month of the great feast of sacrifices, the sacred fire must always be
+kindled three hundred and sixty times a day with nine different kinds of
+wood that are prescribed by the rite.
+
+Fig. 1 shows the arrangement in use among the Eskimos, and Fig. 2 that
+employed by the Indians of North America.
+
+In 1828 there still existed at Essen, in Hanover, an analogous apparatus
+designed to produce an alarm fire. This was a large, horizontal, round
+wooden bar whose extremities pivoted in two apertures formed in vertical
+posts, and which was provided with a cord that was wound around it
+several times. Several persons, by pulling on the ends of this cord,
+caused the bar to revolve alternately in one direction and the other,
+and the heat developed by the friction lighted some tow that had
+previously been inserted in one of the apertures in the post.
+
+[Illustration: FIG. 1.--ESKIMO PRODUCING FIRE BY FRICTION.]
+
+It is certain that the alternate motion must have been produced directly
+by hand before being effected by cords. This simpler process is still in
+use in Tasmania, Australia, Polynesia, Kamtschatka, Thibet, Mexico, and
+among the Guanches of the Canary Isles, who are supposed to be the last
+representatives of the inhabitants of Atlantis, which sank under the
+waters at the close of the Quaternary epoch.
+
+Chamisso, who accompanied Kotzebue in his voyage, describes it as
+follows: "In the Caroline Islands, they rest a vertical piece of
+roundish wood, terminating in a point, and about a foot and a half in
+length and one inch in diameter, upon a second one fixed in the ground,
+and then give it a rotary motion by acting with the palms of the
+hands. This motion, which is at first slow and measured, is at length
+accelerated, while at the same time the pressure becomes stronger,
+whereupon the dust from the wood which has formed by friction and
+accumulated around the point of the movable piece begins to carbonize.
+This dust, which, after a fashion, constitutes a match, soon bursts into
+flame. The women of Eap are wonderfully dexterous in their use of this
+process."
+
+[Illustration: FIG. 2.--PROCESS EMPLOYED IN NORTH AMERICA FOR PRODUCING
+FIRE.]
+
+Fig. 3 shows another manner of obtaining fire by rotation which is
+employed by the Guachos, a half savage, pastoral people who inhabit the
+pampas of South America. Longitudinal friction must have preceded that
+obtained by rotation. It is still in use in most of the islands of
+Oceanica (Fig. 4), and especially in Tahiti and in the Sandwich Islands.
+
+In these latter, says again Chamisso, upon the fixed piece of wood they
+place another piece of the same kind, about the length of the palm, and
+press it obliquely at an angle of about 30 degrees. The extremity that
+touches the fixed piece is blunt, and the other extremity is held with
+the two hands, the two thumbs downward, in order to allow of a surer
+pressure. The piece is given an alternating motion, and in such a way
+that it shall always remain in the same plane inclined at an angle of 30
+degrees, and form, through friction, a small groove from six to eight
+centimeters in length. When the dust thus produced begins to carbonize,
+the pressure and velocity are increased. Wood of a homogeneous texture,
+neither too hard nor too soft, is the best for the purpose.
+
+The Malays operate as follows: A dry bamboo rod, about a foot in length,
+is split longitudinally, and the pith which lines the inside is scraped
+off, pressed, and made into a small ball which is afterward placed in
+the center of the cavity of one of the halves of the tube. This latter
+half is then fixed to the ground in such a way that the cavity and ball
+face downward. The operator next fashions the other half of the tube
+into a straight cutting instrument like a knife-blade, which he applies
+transversely to the fixed half and gives an alternating motion so as to
+produce a sort of sawing. After a certain length of time, a groove, and
+finally a hole, is produced. The cutting edge of the instrument is then
+so hot that it sets on fire the ball with which it has come in contact.
+
+[Illustration: FIG. 3.--GAUCHO OBTAINING FIRE.]
+
+Some peoples, the Fuegians especially, procure fire by striking together
+two flints. In the Aleutian Islands these latter, having been previously
+covered with sulphur, are struck against each other over a small saucer
+of dry moss dusted with sulphur. The Eskimos employ for this purpose
+pieces of quartz and iron pyrites.
+
+In the Sandwich Islands recourse is had to a process that necessitates
+much skill. There is arranged in a large dry leaf, rolled into the
+shape of a funnel, a certain number of flints along with some easily
+combustible twigs. On attaching the leaf to the end of a rod, and
+revolving the latter rapidly, it is said that fire is produced.
+
+Processes that are based upon the clashing of two flint stones must be
+much more inconvenient of application than we would be led to suppose.
+We are, in fact, accustomed to see the flint and steel used, but here
+the spark is a bit of iron raised to red heat through a mechanical
+action that has violently detached it from the mass under the form of
+a small sliver. In the case of two flint stones, the light that
+is perceived is of an entirely different nature, for it is a
+phosphorescence which is produced, even by a very slight friction, not
+only between two pieces of silex, but also between two pieces of quartz,
+porcelain, or sugar; and that the heat developed is but slight is proved
+by the fact that the phenomenon may occur under water. Of course,
+fragments of stones may be raised to a red heat through percussion; but
+this does not often occur, so for this reason the Fuegians keep up with
+the greatest care the fires that they have lighted, and it is this very
+peculiarity that has given their country a characteristic aspect and
+caused it to be named Terra del Fuego (land of fire). When they change
+their residence they always carry with them a few lighted embers which
+rest in their canoes upon a bed of pebbles or ashes.
+
+The same thing occurs, moreover, among the Australians and Tasmanians,
+who employ, as we have just seen, the rotary process. There are women
+among these peoples whose special mission it is to carry day and night
+lighted torches or cones made of a substance that burns slowly like
+punk. When, through accident, the fire happens to get extinguished in a
+tribe, these people often prefer to undertake a long voyage in order to
+obtain another light from a neighboring tribe rather than have recourse
+to a direct production of it.
+
+We can understand from what is still taking place in these distant
+countries why the worship of fire should have existed among our
+ancestors, and why sacerdotal associations, such as the Brahmins of
+India, the Guebers of Persia, the Vestals of Rome, the priests of Baal
+in Chaldea and Phenicia should have been specially instituted for
+producing and preserving it.
+
+Plutarch narrates (Numa, chap. ii.) that when the sacred fire happened
+to go out, there was employed for relighting it a brass mirror that
+had the form of a cone generated by the hypothenuse of an isosceles
+rectangular triangle revolving around one of the sides of the right
+angle.
+
+[Illustration: FIG. 4.--NATIVE OF OCEANICA OBTAINING FIRE BY FRICTION.]
+
+In a poem upon stones attributed to Orpheus, it is said that the sacred
+fire was also lighted by a bit of crystal which concentrated the rays of
+the sun upon the material to be inflamed. This process must have been
+the one that was most usually employed before fire became common. In
+fact, a plano-convex crystal lens has been found among the ruins of
+Nineveh. Aristophanes, in the _Clouds_, puts on the stage a coarse
+personage named Strepsiades, who points out to Socrates how he must
+manage so as not to pay his debts:
+
+"Streps.--Hast thou seen among druggists that beautiful transparent
+stone that they employ for lighting a fire?
+
+"Socr.--Thou meanest glass.
+
+"Streps.--Yes.
+
+"Socr.--Well! what wouldst thou do with it?
+
+"Streps.--When the registrar shall have made out his summons against me,
+I will take the glass, and, placing myself thus in the sun, will cause
+his writing to melt."
+
+As well known, writing was then traced on waxen tablets. Servius (in
+_AEn_., xii., 200) affirms that men of ancient times, instead of lighting
+fire upon the altar themselves, in their sacrifices, caused it to
+descend from heaven. He adds, according to Pliny, Titus Livius, and
+several old Latin historians, that Numa, who was initiated into all the
+wisdom of Etruria, practiced this art with success, but that Tullius
+Hostilius, having desired to repeat the evocation, guided only by the
+books of Numa, did not accomplish all the formalities prescribed by the
+rite and was struck dead by lightning.
+
+Is it not curious that twenty-four centuries afterward, in 1753,
+the physicist Reichman was killed by lightning in trying to repeat
+Franklin's experiment? This coincidence, however, is not the only one.
+Pliny (ii., 53) recounts that lightning was evoked by King Porsenna at
+the time when a monster named _Volta_, who was ravaging the country, was
+directing himself toward the capital, Volsinies.
+
+If we return to the Vedas, who had the habit of personifying all
+phenomena, we shall find that the fire Agni was the son of the carpenter
+who had manufactured the instrument by which it was produced, and of
+_Maya_ (magic). He took the name of Akta (anointed, [Greek: christos])
+when, nourished by libations of butter, he had acquired his full
+development. The Persians attributed likewise to Zoroaster the power
+of causing fire to descend from heaven through magic. Saint Clement of
+Alexandria (_Recog_., lib. iv.) and Gregory of Tours (_Hist. de Fr._,
+i., 5) speak of this. However this may be, the marvelous art was lost
+at an early date, for it was at such a date that priests began to have
+recourse to tricks that were more or less ingenious for lighting their
+sacred fireplaces in an apparently supernatural manner.--_A. De Rochas,
+in La Nature_.
+
+       *       *       *       *       *
+
+
+
+
+ST. BLAISE, THE WINNER OF THE DERBY.
+
+
+St. Blaise, the property of Sir Frederick Johnstone, was bred by Lord
+Alington, and is by Hermit from Fusee. This is an unexceptionable
+pedigree, for Hermit is now as successful and fashionable a sire as was
+even Stockwell in his palmiest days, while Fusee was far more than an
+average performer on the turf, and won several Queen's Plates and other
+races over a distance of ground. St. Blaise is by no means a big colt,
+standing considerably under sixteen hands. His color is about his worst
+point, as he is a light, washy chestnut, with a bald face and three
+white heels. He has a good head and neck, and very powerful back and
+muscular quarters, added to which his legs and feet are well shaped and
+thoroughly sound. His first appearance was made in the Twenty-fourth
+Stockbridge Biennial at the Bibury Club Meeting, when he won easily
+enough; but there were only four moderate animals behind him. A
+walk-over for the Troy Stakes followed, and then Macheath beat him
+easily enough for the Hurstbourne Stakes, though he finished in front
+of Adriana and Tyndrum. For the Molecomb Stakes at Goodwood, he ran a
+dead-heat with Elzevir, to whom he was giving 7 lb.; and Bonny Jean,
+in receipt of 10 lb., was unplaced. A 7 lb. penalty seemed to put him
+completely out of the Dewhurst Plate; but he must then have been out
+of form, as, on the following day, it took him all his time to defeat
+Pebble by a neck in the Troy Stakes. This season he has only run twice.
+His fourth in the Two Thousand was by no means a bad performance,
+considering that he was palpably backward; and his victory of last week
+is too recent to need further allusion. Porter, his trainer, can boast
+of several other successes in the great race at Epsom; but Charles Wood
+had never previously ridden a Derby winner. St. Blaise was unfortunately
+omitted from the entries for the St. Leger, but has several valuable
+engagements at Ascot next week, and appears to have the Grand Prize of
+Paris, on Sunday, at his mercy.--_Illustrated London News_.
+
+[Illustration: ST. BLAISE, THE WINNER OF THE DERBY.]
+
+       *       *       *       *       *
+
+[NATURE.]
+
+
+
+
+SCIENTIFIC PROGRESS IN CHINA AND JAPAN.
+
+
+Various steps in the progress of China, and Japan in the adoption of
+Western science and educational methods have from time to time been
+noticed in these columns. To the popular mind the names of the two
+countries are synonymous with rigid, unreasoning conservatism and with
+rapid change, respectively. The grave, dignified Chinese, who maintains
+his own dress and habits even when isolated among strangers, and whose
+motto appears to be, _Stare super mas antiquas_, is popularly believed
+to be animated by a sullen, obstinate hostility toward any introduction
+from the West, however plain its value may be; while his gayer and more
+mercurial neighbor, the Japanese, is regarded as the true child of the
+old age of the West, following assiduously in its parent's footsteps,
+and pursuing obediently the path marked out by European experience.
+There is considerable misconception in this, as indeed there is at
+all times in the English popular mind with regard to strange peoples.
+Broadly speaking, it is no doubt correct to say that, Japan has adopted
+Western inventions and scientific appliances with avidity; that she
+has shown a desire for change which is abnormal, and a disposition to
+destroy her charts and sail away into unsurveyed seas, while China
+remains pretty much where she always was. She is now, with some
+exceptions, what she was twenty, two hundred, perhaps two thousand years
+ago, while a new Japan has been created in fifteen years. All this, we
+say, is true, but it is not the whole truth. China also has had her
+changes; not indeed so marked or rapid, not so much in the nature of a
+_volte-face_ on all her past as those of her neighbor.
+
+The radical difference between the two countries in this respect we take
+to be this: that while Japan loves change for the sake of change, China
+dislikes it, and will only adopt it when it is clearly demonstrated to
+her that change is absolutely necessary. To the Japanese change appears
+to be a delightful excitement, to the Chinese a distasteful necessity;
+to the former whatever is must be wrong, to the latter whatever is is
+right. As a consequence of this difference between the two peoples, when
+China once makes a step forward it is generally after much deliberation,
+and is never retraced. Japan is constantly undertaking new schemes
+with little care or thought for the morrow, but with the applause of
+injudicious foreign friends. In a short time she discovers that she has
+underrated the expense or exaggerated the results, and her projects
+are straightway abandoned as rapidly and thoughtlessly as they were
+commenced. Swift suggested as a suitable subject for a philosophical
+writer a history of human projects which were never carried out; the
+historian of modern Japan finds these at every turn. Where, for example,
+are the results of the great surveys, trigonometrical and others, which
+were commenced in Yezo and the main island about ten years ago? A large,
+expensive, but highly competent foreign staff was engaged, and worked
+for a few years; but suddenly the whole survey department was swept
+away, and the valuable instruments are, or were recently, lying rusting
+in a warehouse in Tokio. The same story may be told of scores of other
+scientific or educational undertakings in Japan. An able and careful
+writer, Col. H.S. Palmer, R.E., who has recently, with a friendly and
+sympathetic eye, examined the whole field of recent Japanese progress,
+in the _British_ _Quarterly Review_ is forced to acknowledge this. "Once
+having recognized," says this officer, "that progress is essential to
+welfare, and having resolved, first among the nations of the East, to
+throw off past traditions and mould their civilization after that of
+Western countries, it was not in the nature of the lively and impulsive
+Japanese to advance along the path of reform with the calmness and
+circumspection that might have been possible to a people of less active
+temperament. Without doubt many foreign institutions were at first
+adopted rather too hastily, and the passing difficulties which now beset
+Japan are to some extent the inevitable result." It would be blindness
+to deny that the net result of the Japanese efforts is progress of a
+very remarkable kind, but it is a progress which in many respects lacks
+the firm and abiding characteristics of Chinese movements.
+
+The proverb, _Chi va piano va sano_, which was recommended ten years ago
+to Japanese attention by an eminent English official, and apparently
+disregarded by them, has been adopted by their continental neighbors.
+To the blandishments of pushing diplomatists or acute promoters, the
+Chinese are deaf. However we may felicitate ourselves on our inventions,
+scientific appliances, "the railway and the steamship and the thoughts
+that shake mankind," our progress, the newspapers, the penny post, and
+what not, China will not adopt them simply because _we_ have found
+their value and are proud of them. But if, within the range of her own
+experience, she finds the advantage of these things, she will employ
+them with a rapidity and decision surpassing those of the Japanese. A
+conspicuous instance of this will be found in her recent action with
+respect to telegraphs. For years the Chinese steadily refused to have
+anything to do with them; the small land line which connected the
+foreign community of Shanghai with the outer world, was maintained
+against the violent protests of the local authorities, and the cable
+companies experienced some difficulty in getting permission to land
+their cables. But during the winter of 1870-80, when war with Russia
+was threatened, the value of telegraphs was demonstrated to the Peking
+government. The Peiho at Tientsin was closed by ice against steamers,
+and news could only be carried to the capital by overland couriers from
+Shanghai. Before a year elapsed a land line of telegraph was being
+constructed between this port and Tientsin; in a few months the line
+was in working order, and the Chinese metropolis is now in telegraphic
+communication with every capital in Europe.
+
+This conservatism, respect for antiquity, conceit, prejudice, call it
+what we will, has something in it that extorts our respect. Let us
+imagine a dignified and cultivated Chinese official conversing with
+a pushing Manchester or Birmingham manufacturer, who descants on the
+benefits of our modern inventions. He would probably commune with
+himself in this wise, whatever reply Oriental politeness would dictate
+to his interviewer: "China has got on very well for some tens of
+centuries without the curious things of which this foreigner speaks; she
+has produced in this time statesmen, poets, philosophers, soldiers; her
+people appear to have had their share of affliction, but not more than
+those of Europe; why should we now turn round at the bidding of a
+handful of strangers who know little of us or our country, and make
+violent changes in our life and habits? A railway in a province will
+throw thousands of coolies and boatmen out of employment and bring
+on them misery and starvation. This foreigner says that railways and
+telegraphs have been found beneficial in his country; good, let his
+countrymen have them if they please, but let us rest as we are for the
+present. Moreover, past events have not given us such faith in Europeans
+that we should take all they say for wisdom and justice." A day will
+undoubtedly come when China also will have her great mechanical and
+scientific enterprises; but what we contend for here is that nothing
+we can say or do will bring that time an hour nearer. European public
+opinion is to China a dead letter; she refuses to plead before that
+tribunal. Each step of her advance along our path must be the result of
+her own reflection and experience; and our wisest policy would be to
+leave her to herself to advance on it as she deems best. SINENSIS.
+
+       *       *       *       *       *
+
+
+
+
+THE DIAMOND FIELDS OF SOUTH AFRICA.
+
+
+At a recent meeting of the Institution of Civil Engineers, the paper
+read was "On the Diamond Fields and Mines of South Africa," by Mr. James
+N. Paxman, Asoc. M. Inst. C.E.
+
+The author commenced by stating that Kimberley was situated in
+Griqualand West, above 700 miles northeast from Table Bay, and 450 miles
+inland from Port Elizabeth and Natal on the east coast. Lines of railway
+were in course of construction from Table Bay and Port Elizabeth to
+Kimberley, and were about half completed. In Griqualand there were
+several diamond mines, the principal of which were Kimberley, De Beer's,
+Du Toit's Pan, and Bultfontein.
+
+In the Orange Free States there were also two mines, viz., Jagersfontein
+and Koffeyfontein, the first of which produced fine white stones. The
+mines were all divided into claims, the greatest number of which were to
+be found in the Du Toit's Pan mine. Bultfontein came next.
+
+The deepest and most regularly worked was the Kimberley mine. The next
+deepest was De Beer's, which, however, was very unevenly worked. Then
+followed Du Toit's Pan and Bultfontein. The Du Toit's Pan mine ranked
+next in importance to Kimberley mine. Diamonds were first discovered in
+1867 by Mr. O'Reilley, a trader and hunter, who visited a colonist named
+van Niekirk, residing in Griqua. The first diamond, on being sent to the
+authorities, was valued at 500_l_. Considerable excitement was caused
+throughout the colony, and the natives commenced to look for diamonds,
+and many were found, among which was one of eighty-three and a half
+carats, valued at 15,000_l_. In 1868 many enterprising colonists made
+their way up the Vaal River, and were successful in finding a good
+number of diamonds. The center of the river diggings on the Transvaal
+side was Klipdrift, and on the opposite side Pniel. In all there were
+fourteen river diggings. Du Toit's Pan and Bultfontein mines were
+discovered in 1870 at a distance of twenty-four miles from the river
+diggings. The diggers took possession of these places. Licenses were
+granted giving the first diggers a right to work. In 1871 De Beer's
+and Kimberley mines were discovered, and in 1872, Mr. Spalding's great
+diamond of 2821/2 carats was found at the river diggings.
+
+The mines were of irregular shape, and were surrounded by reef. The top
+reef was a loose shale, and had given great trouble from the frequent
+slips. Below this were strata of trachitic breccia and augite; the
+formation was then seamy to an unknown depth.
+
+Within the reef, the surface soil was red, and of a sandy nature. The
+next stratum was of a loose, yellow, gravelly lime, and the third blue,
+of a hard, slaty nature. This last was the real diamantiferous soil.
+Large stones had been found in the "yellow," but the working of this
+generally did not pay. Kimberley mine, however, had paid very well all
+through. The method of working in deep ground was determined by roadways
+running north and south. The soil was hauled up to these roadways,
+and taken to the sorting tables. The roadways decaying shortly after
+exposure to the atmosphere, a system of hand windlass was adopted, which
+worked very well for a time until horsewhims were adopted in 1873.
+The depths of the mines increasing, horsewhims had to give way to
+steam-engines in 1876.
+
+The first diggers treated on an average ten loads per day each party. At
+the present time the least taken out by any engine, when fully employed,
+was 250 loads per day. The cost of working, with present appliances, the
+first one hundred feet in depth, was 3s. 6d. per load; the second one
+hundred feet (mostly blue) 5s.; the third one hundred feet 8s.; and
+the fourth one hundred feet 11s. Through scarcity of water a system
+of dry-sorting had to be resorted to for several years; but it was
+superseded by the introduction of washing machinery, which was now
+generally employed.
+
+At the commencement, through inexperience, many serious mistakes were
+made. When the first diggers reached the bottom of the red sand, they
+thought no diamonds would be found in the next stratum. When, however,
+diamonds were found in the second stratum, the diggers had again to
+remove the debris, and so also when the "blue" was reached. Some of the
+claims in the Du Toit's Pan and Bultfontein mines were irregular in
+shape. The other mines, however, had been properly and regularly laid
+out. One or two shafts had been connected with the mines by underground
+galleries. These galleries were convenient in the case of falls of reef.
+Labor, at first, was cheap; but from 20s. per month, wages rose to 30s.
+per week, and food. The yellow soil offered no difficulty in working,
+being loose and broken, but the blue soil required blasting.
+
+Several methods were adopted for extracting the soil and carrying it
+from the mine before steam was introduced. The cost of wood for heating
+purposes was a serious item, but good coal had now been found at 160
+miles from Kimberley, costing 13l. per ton; another serious item of
+expense was the transport over natural roads only, costing from 18_l_.
+to 30_l_. per ton.
+
+The machinery designed by the author for this industry was described.
+A sixteen horse-power direct-acting winding engine was introduced for
+hauling up loads at the rate of about one thousand feet per minute, and
+a twenty-five horse-power geared engine, for hauling up heavier loads at
+the rate of from six hundred feet to seven hundred feet per minute.
+
+Water was dear, and water-heaters were fitted to each engine, by which
+thirty-three per cent. of the water was again used, thus saving one
+third. The boilers were of the locomotive type, mostly of steel, to save
+weight, and thus reduce the cost of transit. The fire-boxes were also
+made of steel of very soft and ductile quality. A semi-portable engine
+was made for driving the wash mill. The engine was so arranged that it
+might be removed from the boiler and placed separately. The boiler was
+made to work at a pressure of 140 pounds per square inch. Automatic cut
+off gear was fixed to each engine, and the governors were provided with
+a spiral spring for adjusting the speed. A screen, or cylinder wash mill
+and elevator, were used for dealing with the diamantiferous soil, and
+were described. Standing wires were fixed at the back of the machinery,
+and passed over a frame fixed at the top of the mine, the end of the
+mine being secured to strong wooden posts. After the blue soil had been
+blasted and collected into trucks, it was placed in tubs, which ascended
+the standing wires. It was then emptied into the depositing box. The
+yellow soil might be put into the wash mill direct, also that portion of
+the blue which had passed through the screen fixed over the depositing
+box. The remainder of the blue, which was spread out to a thickness of
+four inches or six inches on the depositing ground, some distance from
+the mine to dry, was delivered into the upper part of the screen. The
+return water from the elevator, with a portion of fresh water, was also
+discharged at this point, and operations were thus greatly facilitated,
+the soil becoming thoroughly saturated, and passing more easily down the
+shoots. The large pieces which would not drop through the meshes of the
+screen were discharged into trucks at the lower end and carried away.
+The smaller pieces with water, in the form of sludge, fell through into
+a shoot, and thus were conveyed into the wash mill pan, and there kept
+in constant rotating motion by agitators. The diamonds and other pieces
+of high specific gravity sank to the deepest part of the pan, and the
+remainder of the sludge was forced over the inner ledge to the elevator.
+The sludge was then lifted and thrown upon an inclined screen and down
+the shoot over the side of the bank. The residue left in the pan at the
+end of the day's work was passed through a pulsator, in which, by the
+force of water, the mud and lighter particles were carried away, leaving
+behind the diamonds, agates, garnets, and other heavy stones. It was the
+practice occasionally to put a few inferior stones in the soil, to test
+the efficiency of the machinery.
+
+In 1881 the author paid a visit to Kimberley, and found the industry a
+large one. The Post Office return showed the value of diamonds passed
+through the office in one year to be 3,685,000_l_. Illicit diamond
+traffic had hitherto been a source of great trouble at the fields. It
+was a question whether this industry would ever cease; in any case there
+was no doubt but that it would last for over a century. It was believed
+that the main bed of diamonds had not yet been reached, and that the
+mines in operation were merely shafts leading to it. Now that the water
+works were finished, with a bountiful supply of water, coupled with
+the great boon of railways to the Fields, and the advantage of a law
+recently passed for the prevention of illicit buying, a great and
+prosperous future was in store for the Diamond Fields.
+
+       *       *       *       *       *
+
+
+
+
+SPONGES AT THE BAHAMAS.
+
+
+Within the last few decades the sponge industry of the Bahama Islands
+has increased at such a rate that to-day it is the second in importance
+on the island. Although the product is not of such excellent quality
+as that from the Mediterranean, it sells well and is in demand both in
+England and in America.
+
+For sponge fishing little boats of ten tons burden are employed and
+manned by from six to twelve men. The sponges that are washed upon the
+rocks and reefs are taken with iron rakes fastened to long poles, or
+are brought to the surface by divers and spread out on the deck of the
+vessel. This kills their soft, slimy organisms, which are black as tar.
+The sponges are then repeatedly beaten with sticks to remove this black
+slime, and afterward well washed.
+
+The sponges are then sorted and softened for several hours in lime
+water, dried in the sun, and bleached. They are finally pressed by
+machinery into 100 lb. balls and then packed for shipping.
+
+A rich and very extensive "sponge field" was recently discovered near
+Eleuthera, but as the water there has a considerable depth, five or six
+fathoms, fishing is attended with difficulty. In fact, it is rendered
+impossible wherever the "segler" or sailor fish are found, for the mud
+which these tiny creatures stir up completely veils the sponges from the
+eye of the fisherman.
+
+In 1881 the export amounted to $150,000, of which three-fourths came to
+America.--_Chem. Zeit_.
+
+       *       *       *       *       *
+
+
+
+
+TESTING FISH OVA FOR IMPREGNATION.
+
+
+The development of the eyes of game fishes (salmonoids), as is well
+known, is relatively far advanced before the fish culturist is
+positively assured that embryos are developing normally in the egg.
+A method, therefore, which would enable us to shorten this period of
+probation would not only be desirable, but be also of value under
+certain circumstances, since it is certainly annoying after having had
+them in water for four or five weeks, spending time and care over them,
+to eventually find, when the "eye spots" do not develop, that all our
+trouble was wasted and that no development at all took place.
+
+It is true one may, with proper preparations and with the help of the
+pocket lens or microscope, follow the development while there may be no
+external signs of the process evident. This method of making the
+test is, however, not adapted to the purposes of the practical fish
+culturist, who will have better success by the following method:
+
+If fertilized fish ova are placed in a 50 per cent. solution of wine
+vinegar [any ordinary vinegar will probably be found to answer just
+as well--_Tr_.] the embryo, even during the very first stages of
+development, will become apparent to the eye lying on the transparent
+yelk. The acetic acid contained in the mixture, one part water to
+one part wine vinegar, causes the material of the embryo proper to
+coagulate, while the yelk remains clear.
+
+A short time after the ova are laid in this mixture, and during the
+first week after impregnation, a white circle at one pole of the
+egg should become apparent, and in the course of the second week a
+cylindrical white streak running from the edge of the circle toward its
+center should be evident. If these features are not developed by the
+test, the eggs have not been fertilized, and are, therefore, worthless.
+
+We will not complicate the application of the method by describing other
+details of the development, but would merely suggest that when a lot of
+ova are fertilized a small portion should be left unimpregnated. These
+could then be tested in comparison with the fertilized ova from day to
+day, using say three eggs at a time of each lot. The observant culturist
+could by this means construct for himself a scale of development
+covering the period embraced by his experiments. At a lower temperature
+the development is slower than at a higher one. The difference of
+appearance between fertilized and unfertilized ova treated by the method
+will demonstrate its utility. Whoever does not trust to the method for
+the evidence of death of the eggs until after five weeks subsequent to
+impregnation, must of course wait.
+
+Director Tiefenthaler, of Koelzen, has had the kindness to test the
+method practically, and finds it useful to fish culturists.--_Prof.
+Nussbaum_.
+
+[A very little practice, it seems to the translator, would serve to
+enable any person of ordinary intelligence to apply this method, or
+several others which might be suggested. Other substances which would
+answer the same purpose would be dilute solutions of picric or chromic
+acid, of not more than one to one-half per cent., or one part to two
+hundred of water. Vinegar or acetic acid of the shops may also be used;
+the last to be diluted in the proportions of about one part in ten of
+water. The acids cited will coagulate and cause the germ disk to turn
+white or yellow in a few hours. Chromic is better than picric acid, as
+it coagulates the yelk also, but turns the latter much darker than the
+embryo or embryonic disk.--_Tr_.]
+
+       *       *       *       *       *
+
+A catalogue, containing brief notices of many important scientific
+papers heretofore published in the SUPPLEMENT, may be had gratis at this
+office.
+
+       *       *       *       *       *
+
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+End of the Project Gutenberg EBook of Scientific American Supplement, No.
+392, July 7, 1883, by Various
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+The Project Gutenberg EBook of Scientific American Supplement, No. 392,
+July 7, 1883, by Various
+
+Copyright laws are changing all over the world. Be sure to check the
+copyright laws for your country before downloading or redistributing
+this or any other Project Gutenberg eBook.
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+*****These eBooks Were Prepared By Thousands of Volunteers!*****
+
+
+Title: Scientific American Supplement, No. 392, July 7, 1883
+
+Author: Various
+
+Release Date: August, 2005 [EBook #8742]
+[Yes, we are more than one year ahead of schedule]
+[This file was first posted on August 7, 2003]
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+Edition: 10
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THE PROJECT GUTENBERG EBOOK SCIENTIFIC AMERICAN SUP. NO. 392 ***
+
+
+
+
+Produced by Olaf Voss, Don Kretz, Juliet Sutherland,
+Charles Franks and the DP Team
+
+
+
+
+[Illustration]
+
+
+
+
+SCIENTIFIC AMERICAN SUPPLEMENT NO. 392
+
+
+
+
+NEW YORK, JULY 7, 1883
+
+Scientific American Supplement. Vol. XVI, No. 392.
+
+Scientific American established 1845
+
+Scientific American Supplement, $5 a year.
+
+Scientific American and Supplement, $7 a year.
+
+
+       *       *       *       *       *
+
+TABLE OF CONTENTS.
+
+I.   ELECTRICITY AND MAGNETISM.--Improved Dynamo Machine.
+     Eight figures.
+
+     An Improved Manganese Battery.--By GEO. LEUCHS.
+
+     The Cause of Evident Magnetism in Iron, Steel, and other Magnetic
+     Metals.--By Prof. D. E. HUGHES. Neutrality.--Superposed
+     Magnetism.--Elastic Nature of the Ether Surrounding the Magnetic
+     Molecules. 3 figures.
+
+II.  ENGINEERING.--The Westinghouse Brake. 2 figures.
+
+     Hydraulic Elevators and Motors.--By B. F. JONES.--Bearing
+     upon the Water Supply of Cities.--Cost of Water used.--Objectionable
+     effects on Water Works.--Best method of arranging water
+     supply.--Cause of Accidents.--Advantages of Water Motors over
+     Steam Engines.--Rates for Water Motors.
+
+     Water Supply of Small Towns.--Process of Softening Hard
+     Water. Six figures.
+
+     Improved Water Meter. Several figures.
+
+III. TECHNOLOGY.--Washing Machine for Wool. 1 figure.
+
+     Increasing the Illuminating Power of Gases, etc.--By V. POPP.--
+     3 figures.
+
+     Preventing Iron from Rusting.
+
+     An Elastic Mass for Confectioners' Use.
+
+     Caoutchouc.
+
+     Photographic Action Studied Spectroscopically.
+
+     Salt and Lime.
+
+     Renewing Paint without Burning.
+
+     A Green or Golden Color for all Kinds of Brass.--By E. PULCHER.
+
+     Vinegar.
+
+     The Preservation of Meat by Carbonic Acid.
+
+     On the Adulteration of Soap.--By Dr. H. BRACKEBUSCH.
+
+IV.  CHEMISTRY.--Testing Olive Oil.--By Dr. O. BACH.
+
+     On the Theory of the Formation of Compound Ethers.
+
+     The Alizarine Industry.
+
+     Reduction of Oxidized Iron by Carbonic Oxide.
+
+V.   MEDICINE AND HYGIENE.--Bovine and Human Milk; the Difference
+     in its Action and Composition.--By C. HUSSON.
+
+     Cereal Foods in their Relation to Health and Disease.--By F. R.
+     CAMPBELL.
+
+     Moist Air in Living Rooms.
+
+     The Developmental Significance of the Human Physiognomy.--
+     By E. D. COPE.--Numerous illustrations.
+
+VI.  NATURAL HISTORY.--The Diamond Fields of South Africa.
+
+     Sponges at the Bahamas.
+
+     Testing Fish Ova for Impregnation.
+
+VII. MISCELLANEOUS.--The Production of Fire. 4 figures.
+
+     St. Blaise.--The winner of the Derby. 1 illustration.
+
+       *       *       *       *       *
+
+
+
+
+IMPROVED DYNAMO MACHINE.
+
+
+The continuous current and the alternating current generators invented
+by Dr. J. Hopkinson and Dr. Alexander Muirhead are peculiarly
+interesting as being probably the first in which the bobbins of the
+armature were wound with copper ribbon and arranged on a disk armature
+much in the same way as was afterward done by Sir William Thomson and by
+Mr. Ferranti. In the Muirhead-Hopkinson machine the armature coils are
+attached to a soft iron ring, whereas in the Ferranti the iron core is
+dispensed with, and a gain of lightness in the armature or rotating part
+effected; this advantage is of considerable importance, though Messrs.
+Hopkinson and Muirhead can of course reduce the weight of this iron core
+to insignificant proportions.
+
+[Illustration: HOPKINSON & MUIRHEAD'S DYNAMO-ELECTRIC GENERATOR.]
+
+The general form of this generator is clearly shown by the side and end
+elevation.
+
+The armature is made by taking a pulley and encircling it with a rim of
+sheet-iron bands, each insulated from the other by asbestos paper. On
+one or both sides of the rim thus formed, radial slots are cut to admit
+radial coils of insulated copper wire or ribbon, so that they lie in
+planes parallel to the plane of the pulley. In the continuous current
+machine coils are placed on both sides of the iron rim and arranged
+alternately, that on the one side always covering the gap between two on
+the other side. In this way, when a coil on one side of the rim is at
+its "dead point" and yields its minimum of current, the corresponding
+coil on the other side is giving out its maximum.
+
+The field magnets are made in a similar manner to the armature and run
+in circles parallel to the rim of the latter. The cores may be built up
+of wrought iron as the rim of the armature is; but it is found cheaper
+to make them of solid wrought or cast iron. To stop the local induced
+currents in the core, however, Messrs. Muirhead and Hopkinson cut
+grooves in the faces of the iron cores, and fill them up with sheet-iron
+strips insulated from each other, similar to the sheet-iron rim of the
+armature.
+
+The coils, both in the armature and electro-magnets, are packed as
+closely as they may to each other, and have thus a compressed or
+quadrilateral shape. The arrangement is shown in Figs. 1 and 2, which
+represent, in side view and plan, the armature pulley with the soft iron
+rim and coils attached. There a is the pulley which is keyed to the
+shaft of the machine, and is encircled with bands of sheet iron, b,
+insulated from each other by ribbons of asbestos paper laid between
+every two bands. When the rim has been built up in this way, radial
+holes are drilled through it from the outer edge inward, and the whole
+rim is bound together by bolts, d, inserted in the holes and secured by
+cottars, e. Radial slots are then cut on each side of the rim all round,
+and the coils of wire mounted on them.
+
+Figs. 3 and 4 show the armature of the continuous current dynamo, with
+the coils on one side of the rim, half way between the coils on the
+other side, so as to give a more continuous current. In the alternating
+current machine the slots on the opposite faces are face to face.
+
+Figs. 5 and 9 illustrate the complete continuous current machine, Fig.
+9 showing the internal arrangement of the field magnets, and Fig. 5 the
+external frame of cast iron supporting them. In these figures a is the
+armature already described, b b are the cores of the electro-magnets
+with a strong cast iron backing, c c; d d are the exciting coils or
+field magnets, so connected that the poles presented to the armature are
+alternately north and south, thus bringing a south pole on one side of
+the armature opposite a north pole on the other side.
+
+The commutator, e, is arranged to prevent sparking when the brushes
+leave a contact piece. This is done by splitting up the brushes into
+several parts and inserting resistances between the part which leaves
+the contact piece last and the rest of the circuit. This resistance
+checks the current ere the final rupture of contact takes place.
+
+Figs. 6 and 7 will explain the structure of the commutator. Here a a a
+are the segments or contact pieces insulated from each other, and b' b
+b are the collecting brushes carried on a spindle, c c'. One of these
+brushes, b', is connected to the spindle, c, through an electrical
+resistance of plumbago, arranged as shown in Fig. 7, where d e are metal
+cylinders, d being in contact with the brush, b', while e is in contact
+with the spindle, c. The space, f, between these two cylinders, d e, is
+filled with a mixture of plumbago and lampblack of suitable resistance,
+confined at the ends by ivory disks. The brush, b', is adjusted by
+bending till it remains in contact with any segment of the commutator
+for a short time after the other brushes have left contact with that
+segment, and thus instead of sudden break of circuit and consequent
+sparking, a resistance is introduced, and contact is not broken until
+the current has been considerably reduced.
+
+The contact segments are supported at both ends by solid insulating
+disks; but they are insulated from each other by the air spaces between
+them, where the brushes rub upon them.
+
+The alternating current dynamo of Drs. Hopkinson and Muirhead differs
+little in general construction from that we have described; except that
+the commutator is very much simplified, and the armature bobbins are
+placed opposite each other on both sides of the rim. Instead of forming
+the coils into complete bobbins, Dr. Muirhead prefers to wind them in a
+zigzag form round the grooved iron rim after the manner shown in Fig. 8,
+which represents a plan and section of the alternating current armature.
+This arrangement is simpler in construction than the bobbin winding, and
+is less liable to generate self-induction current in the armature. Sir
+William Thomson has adopted a similar plan in one of his dynamos. In
+Fig. 8, a is the pulley fixed to the spindle of the machine, b b is
+the iron rim, and c c are the zigzag coils of copper ribbon. The field
+magnets are also wound in a similar manner.
+
+It will be seen from our description that Drs. Hopkinson and Muirhead
+have scarcely had sufficient credit given them for this interesting
+machine, which so closely approximates to the Ferranti. One of their
+alternating dynamos has been built, and was shown at the Aquarium
+Exhibition. It works well, and is capable of supporting 300 Swan lights,
+while in size and appearance it resembles the Ferranti machine in a
+very striking manner. Drs. Muirhead and Hopkinson have also designed
+a magneto-electric alternating current machine; but as it closely
+resembles the machines described, with the exception that permanent
+magnets are employed as field magnets, we need not dwell upon it
+further.--_Engineering_.
+
+       *       *       *       *       *
+
+
+
+
+AN IMPROVED MANGANESE BATTERY.
+
+By GEORGE LEUCHS.
+
+
+The Leclanche battery is distinguished for its simplicity, its small
+internal resistance (0.7 to 1.0 Siemens unit), and that all chemical
+action ceases when the current is broken, that it is not sensitive to
+external influence, and by the self-renewal of the negative electrodes.
+But on the opposite side the action is not very great (= 1.20 or 1.48
+D.), and the zinc as well as the sal ammoniac are converted into
+products that cannot be utilized.
+
+I replace the solution of sal ammoniac by one of caustic potash or
+soda (12 to 15 per cent.), and the thin zinc rods by zincs with larger
+surfaces. In this manner, I obtain a powerful and odorless battery,
+having all the valuable qualities of the Leclanche, and one that
+permits of a renewal of the potash solution as well as of the negative
+electrode.
+
+The electromotive power of this element may be as high as 1.8 D. The
+same pyrolusite (binoxide of manganese) cylinder used with the same thin
+rod of zinc will precipitate 75 per cent. more copper from solution in
+an hour when caustic potash is used than when sal ammoniac is employed.
+But by replacing the thin zinc rod by a zinc cylinder of large surface,
+2� times as much copper is precipitated in the same time.
+
+The more powerful action of such a pair is explained by the stronger
+excitation and more rapid regeneration that the negative electrodes
+undergo from the oxidizing action of the air in the potash solution, as
+well as by the fact that this solution is a better conductor than the
+sal ammoniac solution. The potash solution does not crystallize easily,
+hence the negative electrode remains free from crystals and does not
+require filling up with water. Zinc dissolves only while in contact
+with negative bodies, hence there is no unnecessary consumption of zinc
+either in the open or closed circuit.
+
+When the potash lye has become useless, I regenerate it by removing the
+zinc in the following manner: I pour the solution from the cells, put
+it in a suitable vessel, where I add water to replace that already
+evaporated, and then shake it up well at the ordinary temperature with
+hydrated oxide of zinc (zincic hydrate). Under this treatment the
+greater portion of the zinc that had been chemically dissolved by the
+potash is precipitated in the form of zinc hydrate, along with
+some carbonate. The liquid is now allowed to settle, and the clear
+supernatant solution is poured back again into the battery cells. The
+battery has rather greater electromotive force when this regenerated lye
+is used, because certain foreign matters from the carbon, like sulphur,
+chlorine, sulphuric acid, etc., are removed by this treatment.
+
+The regeneration of the (brown coal) carbon goes on of itself, beneath
+the lye, through the oxidizing action of the atmospheric air; it is
+advantageous to have a part of the carbon sticking out of the liquid. Of
+course the regeneration takes place much more quickly if the electrodes
+are taken out and exposed to the air. In this case the carbon electrode
+need not be very thick, and can be flat or of tubular form. In the
+former case it must have a large volume, and the massive cylindrical
+form is recommended. The zinc electrode must be kept covered deeply with
+potash. The cells must have free access of air, and the potash must be
+replaced as soon as it is exhausted.--_Chem. Zeit_.
+
+       *       *       *       *       *
+
+[Concluded from SUPPLEMENT No. 390, page 6217.]
+
+
+
+
+THE CAUSE OF EVIDENT MAGNETISM IN IRON, STEEL, AND OTHER MAGNETIC
+METALS.
+
+[Footnote: Paper lately read before the Society of Telegraph Engineers
+and Electricians.]
+
+By Professor D. E. HUGHES, F.R.S., Vice-President.
+
+NEUTRALITY.
+
+
+The apparatus needed for researches upon evident external polarity
+requires no very great skill or thought, but simply an apparatus to
+measure correctly the force of the evident repulsion or attraction; in
+the case of neutrality, however, the external polarity disappears, and
+we consequently require special apparatus, together with the utmost care
+and reflection in its use.
+
+From numerous researches previously made by means of the induction
+balance, the results of which I have already published, I felt convinced
+that in investigating the cause of magnetism and neutrality I should
+have in it the aid of the most powerful instrument of research ever
+brought to bear upon the molecular construction of iron, as indeed of
+all metals. It neglects all forces which do not produce a change in the
+molecular structure, and enables us to penetrate at once to the interior
+of a magnet or piece of iron, observing only its peculiar structure
+and the change which takes place during magnetization or apparent
+neutrality.
+
+The induction balance is affected by three distinct arrangements of
+molecular structure in iron and steel, by means of which we have
+apparent external neutrality.
+
+Fig 1 shows several polar directions of the molecules as indicated
+by the arrows. Poisson assumed as a necessity of his theory, that
+a molecule is spherical; but Dr. Joule's experimental proof of the
+elongation of iron by one seven-hundred and-twenty-thousandth of its
+length when magnetized, proves at least that its form is not spherical;
+and, as I am unable at present to demonstrate my own views as to its
+exact form, I have simply indicated its polar direction by arrows--the
+dotted oval lines merely indicating its limits of free elastic rotation.
+
+In Fig. 1, at A, we have neutrality by the mutual attraction of each
+pair of molecules, being the shortest path in which they could satisfy
+their mutual attractions. At B we have the case of superposed magnetism
+of equal external value, rendering the wire or rod apparently neutral,
+although a lower series of molecules are rotated in the opposite
+direction to the upper series, giving to the rod opposite and equal
+polarities. At C we have the molecules arranged in a circular chain
+around the axis of a wire or rod through which an electric current
+has passed. At D we have the evident polarity induced by the earth's
+directive influence when a soft iron rod is held in the magnetic
+meridian. At E we have a longitudinal neutrality produced in the same
+rod when placed magnetic west, the polarity in the latter case being
+transversal.
+
+In all these cases we have a perfectly symmetrical arrangement, and I
+have not yet found a single case in well-annealed soft iron in which I
+could detect a heterogeneous arrangement, as supposed by Ampere, De la
+Rive, Weber, Wiedermann, and Maxwell.
+
+We can only study neutrality with perfectly soft Swedish iron. Hard
+iron and steel retain previous magnetizations, and an apparent external
+neutrality would in most cases be the superposition of one magnetism
+upon another of equal external force in the opposite direction, as shown
+at B, Fig. 1. Perfectly soft iron we can easily free, by vibrations,
+from the slightest trace of previous magnetism, and study the neutrality
+produced under varying conditions.
+
+[Illustration: FIG. 1.]
+
+If we take a flat bar of soft iron, of 30 or more centimeters in
+length, and hold it vertically (giving while thus held a few torsions,
+vibrations, or, better still, a few slight blows with a wooden mallet,
+in order to allow its molecules to rotate with perfect freedom), we find
+its lower end to be of strong north polarity, and its upper end south.
+On reversing the rod and repeating the vibrations, we find that its
+lower end has precisely a similar north polarity. Thus the iron is
+homogeneous, and its polarity symmetrical. If we now magnetize this rod
+to produce a strong south pole at its lower portion, we can gradually
+reverse this polarity, by the influence of earth's magnetism, by
+slightly tapping the upper extremity with a small wooden mallet. If
+we observe this rod by means of a direction needle at all parts, and
+successively during its gradual passage from one polarity to the other,
+there will be no sudden break into a haphazard arrangement, but a
+gradual and perfectly symmetrical rotation from one direction to that of
+the opposite polarity.
+
+If this rod is placed east and west, having first, say, a north polarity
+to the right, we can gradually discharge or rotate the molecules to
+zero, and as gradually reverse the polarity by simply inclining the rod
+so as to be slightly influenced by earth's magnetism; and at no portion
+of this passage from one polarity to neutrality, and to that of the
+opposite name, will there be found a break of continuity of rotation or
+haphazard arrangement. If we rotate this rod slowly, horizontally or
+vertically, taking observations at each few degrees of rotation of an
+entire revolution, we find still the same gradual symmetrical change
+of polarity, and that its symmetry is as complete at neutrality as in
+evident polarity.
+
+In all these cases there is no complete neutrality, the longitudinal
+polarity simply becoming transversal when the rod is east and west.
+F, G, H, I, J, Fig. 1, show this gradual change, H being neutral
+longitudinally, but polarized transversely. If, in place of the rod,
+we take a small square soft iron plate and allow its molecules freedom
+under the sole influence of the earth's magnetism, then we invariably
+find the polarity in the direction of the magnetic dip, no matter in
+what position it be held, and a sphere of soft iron could only be
+polarized in a similar direction Thus we can never obtain complete
+external neutrality while the molecules have freedom and do not form an
+internal closed circle of mutual attractions; and whatever theory we may
+adopt as to the cause of polarity in the molecule, such as Coulomb's,
+Poisson's, Ampere's, or Weber's, there can exist no haphazard
+arrangement in perfectly soft iron, as long as it is free from all
+external causes except the influence of the earth; consequently these
+theories are wrong in one of their most essential parts.
+
+We can, however, produce a closed circle of mutual attraction in iron
+and steel, producing complete neutrality as long as the structure is not
+destroyed by some stronger external directing influence.
+
+Oersted discovered that an external magnetic needle places itself
+perpendicular to an electric current; and we should expect that, if the
+molecules of an iron wire possessed inherent polarity and could rotate,
+a similar effect would take place in the interior of the wire to that
+observed by Oersted. Wiedermann first remarked this effect, and it has
+been known as circular magnetism. This circle, however, consists really
+in each molecule having placed itself perpendicular to the current,
+simply obeying Oersted's law, and thus forming a complete circle in
+which the mutual attractions of the molecules forming that circle are
+satisfied, as shown as C, Fig. 1. This wire becomes completely neutral,
+any previous symmetrical arrangement of polarity rotating to form its
+complete circle of attractions; and we can thus form in hard iron and
+steel a neutrality extremely difficult to break up or destroy. We have
+evident proof that this neutrality consists of a closed chain, or
+circle, as by torsion we can partially deflect them on either side; thus
+from a perfect externally neutral wire, producing either polarity, by
+simple mechanical angular displacement of the molecules, as by right or
+left handed torsion.
+
+If we magnetize a wire placed east and west, it will retain this
+polarity until freed by vibrations, as already remarked. If we pass an
+electric current through this magnetized wire, we can notice the gradual
+rotation of the molecules, and the formation of the circular neutrality.
+If we commence with a weak current, gradually increasing its strength,
+we can rotate them as slowly as may be desired. There is no sudden break
+or haphazard moment of neutrality: the movements to perfect zero are
+accomplished with perfect symmetry throughout.
+
+We can produce a more perfect and shorter circle of attractions by the
+superposition of magnetism, as at B, Fig. 1. If we magnetize a piece
+of steel or iron in a given direction with a strong magnetic directing
+power, the magnetism penetrates to a certain depth. If we slightly
+diminish the magnetizing power, and magnetize the rod in a contrary
+direction, we may reduce it to zero, by the superposition of an exterior
+magnetism upon one of a contrary name existing at a greater depth; and
+if we continue this operation, gradually diminishing the force at each
+reversal, we can easily superpose ten or more distinct symmetrical
+arrangements, and, as their mutual attractions are satisfied in a
+shorter circle than in that produced by electricity, it is extremely
+difficult to destroy this formation when once produced.
+
+The induction balance affords also some reasons for believing that the
+molecules not only form a closed circle of attractions, as at B, but
+that they can mutually react upon each other, so as to close a circle
+of attractions as a double molecule, as shown at A. The experimental
+evidence, however, is not sufficient to dwell on this point, as the
+neutrality obtained by superposition is somewhat similar in its external
+effects.
+
+We can produce a perfectly symmetrical closed circle of attractions of
+the nature of the neutrality of C, Fig. 3, by forming a steel wire into
+a closed circle, 10 centimeters in diameter, if this wire is well joined
+at its extremities by twisting and soldering. We can then magnetize this
+ring by slowly revolving it at the extremity of one pole of a strong
+permanent magnet; and, to avoid consequent poles at the part last
+touching the magnet, we should have a graduating wedge of wood, so that
+while revolving it may be gradually removed to greater distance. This
+wire will then contain no consequent points or external magnetism: it
+will be found perfectly neutral in all parts of its closed circle. Its
+neutrality is similar to C, Fig. 3; for if we cut this wire at any point
+we find extremely strong magnetic polarity, being magnetized by this
+method to saturation, and having retained (which it will indefinitely)
+its circle of attractions complete.
+
+I have already shown that soft iron, when its molecules are allowed
+perfect freedom by vibration, invariably takes the polarity of the
+external directing influence, such as that of the earth, and it does so
+even with greater freedom under the influence of heat. Manufacturers of
+electro-magnets for telegraphic instruments are very careful to choose
+the softest iron and thoroughly anneal it; but very few recognize the
+importance as regards the position of the iron while annealing it under
+the earth's directing influence. The fact, however, has long since been
+observed.
+
+Dr. Hooke, 1684, remarked that steel or iron was magnetized when heated
+to redness and placed in the magnetic meridian. I have slightly varied
+this experiment by heating to redness three similar steel bars, two
+of which had been previously magnetized to saturation, and placed
+separately with contrary polarity as regards each other, the third being
+neutral. Upon cooling, these three bars were found to have identical and
+similar polarity. Thus the molecules of this most rigid material, cast
+steel, had become free at red heat, and rotated under the earth's
+magnetic influence, giving exactly the same force on each; consequently
+the previous magnetization of two of these bars had neither augmented
+nor weakened the inherent polarity of their molecules. Soft iron gave
+under these conditions by far the greatest force, its inherent polarity
+being greater than that of steel.
+
+I have made numerous other experiments bearing upon the question of
+neutrality, but they all confirm those I have cited, which I consider
+afford ample evidence of the symmetrical arrangement of neutrality.
+
+
+SUPERPOSED MAGNETISM.
+
+Knowing that by torsion we can rotate or diminish magnetism, I was
+anxious to obtain by its means a complete rotation from north polarity
+to neutrality, and from neutrality to south polarity, or to completely
+reverse magnetic polarity by a slight right or left torsion.
+
+I have succeeded in doing this, and in obtaining strong reversal of
+polarities, by superposing one polarity given while the rod is under a
+right elastic torsion, with another of the opposite polarity given under
+a left elastic torsion, the neutral point then being reached when the
+rod is free from torsion. The rod should be very strongly magnetized
+under its first or right-hand torsion, so that its interior molecules
+are rotated, or, in other words, magnetized to saturation; the second
+magnetization in the contrary sense and torsion should be feebler, so
+as only to magnetize the surface, or not more than one-half its depth;
+these can be easily adjusted to each other so as to form a complete
+polar balance of force, producing, when the rod is free from torsion,
+the neutrality as shown at B, Fig. 1.
+
+The apparatus needed is simply a good compound horseshoe permanent
+magnet, 15 centimeters long, having six or more plates, giving it a
+total thickness of at least 3 centimeters. We need a sufficiently
+powerful magnet, as I find that I obtain a more equal distribution of
+magnetism upon a rod or strip of iron by drawing it lengthwise over a
+single pole in a direction from that pole, as shown in Fig. 2; we can
+then obtain saturation by repeated drawings, keeping the same molecular
+symmetry in each experiment.
+
+In order to apply a slight elastic torsion when magnetizing rods or
+wires, I have found it convenient to attach two brass clamp keys to the
+extremities of the rods, or simply turn the ends at right angles, as
+shown in the following diagram, by which means we can apply an elastic
+twist or torsion while drawing the rod over the pole of the permanent
+magnet. We can thus superpose several and opposite symmetrical
+structures, producing a polar north or south as desired, greatly in
+excess of that possible under a single or even double magnetization, and
+by carefully adjusting the proportion of opposing magnetisms, so that
+both polarities have the same external force, the rod will be at perfect
+external neutrality when free from torsion.
+
+[Illustration: FIG. 2.]
+
+If we now hold one end of this rod at a few centimeters distance from
+a magnetic directive needle, we find it perfectly neutral when free
+of torsion, but the slightest torsion right or left at once produces
+violent repulsion or attraction, according to the direction of the
+torsion given to the rod, the iron rod or strips of hoop-iron which
+I use for this experiment being able, when at the distance of five
+centimeters from the needle, to turn it instantly 90� on either side of
+its zero.
+
+The external neutrality that we can now produce at will is absolute, as
+it crosses the line of two contrary polarities, being similar to the
+zero of my electric sonometer, whose zero is obtained by the crossing of
+two opposing electric forces.
+
+This rod of iron retains its peculiar powers of reversal in a remarkable
+degree, a condition quite different to that of ordinary magnetization,
+for the same rod, when magnetized to saturation under a single ordinary
+magnetism, loses its evident magnetism by a few elastic torsions, as I
+have already shown; but when it is magnetized under the double torsion
+with its superposed magnetism, it is but slightly reduced by variations
+or numerous torsions, and I have found it impossible to render this
+rod again free from its double polar effects, except by strongly
+remagnetizing it to saturation with a single polarity. The superposed
+magnetism then becomes a single directive force, and we can then by a
+few vibrations or torsions reduce the rod to its ordinary condition.
+
+The effects of superposed magnetism and its double polarity I have
+produced in a variety of ways, such as by the electro-magnetic influence
+of coils, or in very soft iron simply by the directive influence of
+the earth's magnetism, reversing the rod and torsions when held in
+the magnetic meridian, these rods when placed magnetic west showing
+distinctly the double polar effects.
+
+It is remarkable, also, that we are enabled to superpose and obtain
+the maximum effects on thin strips of iron from � to � millimeter in
+thickness, while in thicker rods we have far less effect, being masked
+by the comparatively neutral state of the interior, the exterior
+molecules then reaching upon those of the interior, allowing them to
+complete in the interior their circle of attractions.
+
+I was anxious to obtain wires which would preserve this structure
+against the destructive influence of torsion and vibrations, so that I
+could constantly employ the same wires without the comparatively long
+and tedious process of preparation. Soft iron soon loses the structure,
+or becomes enfeebled, under the constant to and fro torsions requisite
+where we desire a constant change of polarity, as described later in the
+magnetic bells. Hard steel preserves its structure, but its molecular
+rigidity is so great that we obtain but mere traces of any change of
+polarity by torsion. I have found, however, that fine cast drill steel,
+untempered, of the kind employed by watchmakers, is most suitable;
+these are generally sold in straight lengths of 30 centimeters. Wires
+1 millimeter in diameter should be used, and when it is desired to
+increase the force, several of these wires, say, nine or ten, should be
+formed into a single rod or bunch.
+
+The wire as sold is too rigid to give its maximum of molecular rotation
+effect. We must therefore give it two entire turns or twists to the
+right, and strongly magnetize it on the north pole of the magnet while
+under torsion. We must again repeat this operation in the contrary
+direction, after restoring the wire to its previous position, giving now
+two entire turns to the left and magnetizing it on the south pole. On
+restoring the wire to its original place, it will be extremely flexible,
+and we may now superpose several contrary polarities under contrary
+torsions, as already described.
+
+The power of these wires, if properly prepared, is most remarkable,
+being able to reverse their polarity under torsion, as if they were
+completely saturated; and they preserve this power indefinitely if not
+touched by a magnet. It would be extremely difficult to explain the
+action of the rotative effects obtained in these wires under any other
+theory than that which I have advanced; and the absolute external
+neutrality that we obtain in them when the polarities are changing, we
+know, from their structure, to be perfectly symmetrical.
+
+I was anxious to show, upon the reading of this paper, some mechanical
+movement produced by molecular rotation, consequently I have arranged
+two bells that are struck alternately by a polarized armature put in
+motion by the double polarized rod I have already described, but whose
+position, at three centimeters distant from the axis of the armature,
+remains invariably the same. The magnetic armature consists of a
+horizontal light steel bar suspended by its central axle; the bells are
+thin wine glasses, giving a clear musical tone loud enough, by the force
+with which they are struck, to be clearly heard at some distance. The
+armature does not strike these alternately by a pendulous movement, as
+we may easily strike only one continuously, the friction and inertia of
+the armature causing its movements to be perfectly dead beat when not
+driven by some external force, and it is kept in its zero position by a
+strong directive magnet placed beneath its axle.
+
+The mechanical power obtained is extremely evident, and is sufficient to
+put the sluggish armature in rapid motion, striking the bells six times
+per second, and with a power sufficient to produce tones loud enough to
+be clearly heard in all parts of the hall of the Society. As this is
+the first direct transformation of molecular motion into mechanical
+movement, I am happy to show it on this occasion.
+
+There is nothing remarkable in the bells themselves, as they evidently
+could be rung if the armature was surrounded by a coil, and worked by an
+electric current from a few cells. The marvel, however, is in the small
+steel superposed magnetic wire producing by slight elastic torsions from
+a single wire, one millimeter in diameter, sufficient force from mere
+molecular rotation to entirely replace the coil and electric current.
+
+
+ELASTIC NATURE OF THE ETHER SURROUNDING THE MAGNETIC MOLECULES.
+
+During these researches I have remarked a peculiar property of
+magnetism, viz., that not only can the molecules be rotated through any
+degree of arc to its maximum, or saturation, but that, while it requires
+a comparatively strong force to overcome its rigidity or resistance to
+rotation, it has a small field of its own through which it can move with
+excessive freedom, trembling, vibrating, or rotating through a small
+degree with infinitely less force than would be required to rotate it
+permanently on either side. This property is so marked and general that
+we can observe it without any special iron or apparatus.
+
+Let us take a flat rod of ordinary hoop iron, 30 or more centimeters
+in length. If, while holding this vertically, we give freedom to its
+molecules by torsions, vibrations, or, better still, by a few blows with
+a wooden mallet upon its upper extremity, we find, as is well known,
+that its lower portion is strongly north, and its upper south. If we
+reverse this rod, we now find it neutral at both extremities. We might
+here suppose that the earth's directing force had rotated the molecules
+to zero, or transversely, which in reality it has done, but only to the
+limit of their comparatively free motion; for if we reverse the rod to
+its original position, its previous strong polarity reappears at both
+extremities, thus the central point of its free motion is inclined to
+the rod, giving by its free motion great symmetrical inclination and
+polarity in one direction, but when reversed the inclination is reduced
+to zero.
+
+In Fig. 3, D shows the bar of iron when strongly polarized by earth's
+magnetic influence, under vibrations, with a sufficient force to have
+rotated its elastic center of action. C shows the same bar with its
+molecules at zero, or transversal, the directing force of earth being
+insufficient without the aid of mechanical vibration to allow them to
+change. The dotted lines of D suppose the molecule to be in the center
+of its free motion, while at C the molecules have rotated to zero, as
+they are prevented from further rotation by being at the extreme end of
+its free motion.
+
+If, now, we hold the rod vertically, as at C, giving neutrality, and
+give a few slight blows with a wooden mallet to its upper extremity, we
+can give just the amount of freedom required for it to produce evident
+polarity, and we then have equal polarity, no matter which end of the
+bar is below, the center of its free rotation here being perfect, and
+the rod perfectly neutral longitudinally when held east and west. If, on
+the other hand, we have given too much freedom by repeated blows of the
+mallet, its center of free motion becomes inclined with the molecules,
+and we arrive at its first condition, except that it is now neutral at
+D and polarized at C. From this it will be seen that we can adjust
+this center of action, by vibrations or blows, to any point within the
+external directing influence.
+
+[Illustration: FIG. 3.]
+
+We can perceive this effect of free rotation in a limited space in all
+classes of iron and steel, being far greater in soft Swedish iron than
+in hard iron or steel. A similar phenomenon takes place if we magnetize
+a rod held vertically in the direction of earth's magnetism. It
+then gives greater polarity than if magnetized east or west, and if
+magnetized in a contrary sense to earth's magnetism, it is very feebly
+magnetized, or, if the rod is perfectly soft, it becomes neutral after
+strong magnetization. This property of comparative freedom, and the
+rotation of its center of action, can be demonstrated in a variety of
+ways. One remarkable example of it consists in the telephone. All those
+who are thoroughly acquainted with electro-magnetism, and know that
+it requires measurable time to charge an electro-magnet to saturation
+(about one-fifteenth of a second for those employed in telegraphy),
+were surprised that the telephone could follow the slightest change of
+timbre, requiring almost innumerable changes of force per second. I
+believe the free rotation I have spoken of through a limited range
+explains its remarkable sensitiveness and rapidity of action, and,
+according to this view, it would also explain why loud sounding
+telephones can never repeat all the delicacy of timbre that is easily
+done with those only requiring a force comprised in the critical limits
+of its free rotation. This property, I have found, has a distinct
+critical value for each class of iron, and I propose soon to publish
+researches upon the molecular construction of steel and iron, in which
+I have made use of this very property as a guide to the quality of the
+iron itself.
+
+The elastic rotation (in a limited space) of a molecule differs entirely
+from that known as mechanical elasticity. In perfectly soft iron we have
+feeble _mechanical_ elasticity, while in tempered steel we have
+that elasticity at its maximum. The contrary takes place as regards
+_molecular_ elasticity. In tempered steel the molecules are extremely
+rigid, and in soft iron its molecular elasticity is at its maximum. Its
+free motion differs entirely from that given it by torsion or stress. We
+may assume that a molecule is surrounded by continuous ether, more of
+the nature of a jelly than of that of a gas; in such a medium a molecule
+might freely vibrate through small arcs, but a rotation extending beyond
+its critical limit would involve a much greater expenditure of force.
+
+The discovery of this comparatively free rotation of molecules, by means
+of which, as I have shown, we can (without in any degree disturbing the
+external mechanical elasticity of the mass) change the axes of their
+free motion in any direction desired, has led me into a series of
+researches which have only indirectly any relation with the theory of
+magnetism. I was extremely desirous, however, of finding an experimental
+evidence which in itself should demonstrate all portions of the theory,
+and the following experiment, I believe, answers this purpose.
+
+Let us take a square soft iron rod, five millimeters in diameter by
+thirty or more centimeters in length, and force the molecules, by aid
+of blows from a wooden mallet, as previously described, to have their
+centers of free motion in one direction; the rod will (as already shown)
+have polarity at both ends, when held vertically; but if reversed, both
+ends become completely neutral.
+
+If now we turn the rod to its first position, in which it shows strong
+polarity, and magnetize it while held vertically, by drawing the north
+pole of a sufficiently powerful permanent magnet from its upper to its
+lower extremity, we find that this rod, instead of having south polarity
+at its lower portion, as we should expect from the direction of the
+magnetization, is completely neutral at both extremities, but if we
+reverse the rod its fullest free powers of magnetization now appear in
+the position where it was previously neutral. Thus, by magnetization, we
+have completely rotated its free path of action, and find that we can
+rotate this path as desired in any direction by the application of a
+sufficient directing power.
+
+If we take a rod as described, with its polarities evident when held
+vertically, and its neutrality also evident when its ends are reversed
+in the same magnetic field, we find that its polarity is equal at both
+ends, and that it is in every way symmetrical with a perfect magnet. If
+we _gradually_ reverse the ends and take observations of its condition
+through each degree of arc passed over, we find an equal symmetrical
+diminution of evident external polarity, until we arrive at neutrality,
+when it has no external trace of inherent polarity; but its inherent
+polarity at once becomes evident by a simple return to its former
+position. Thus the rod has passed through all the changes from polarity
+to neutrality, and from neutrality to polarity, and these changes have
+taken place with complete symmetry.
+
+The limits of this paper do not allow me to speak of the numerous
+theoretical evidences as shown by the use of my induction balance. I
+believe, however, that I have cited already experimental evidences to
+show that what has been attributed to coercive force is really due to
+molecular freedom or rigidity; that in inherent molecular polarity we
+have a fact admitted by Coulomb, Poisson, Ampere, De la Rive, Weber,
+Du Moncel, Wiedermann, and Maxwell; and that we have also experimental
+evidence of molecular rotation and of the symmetrical character of
+polarity and neutrality.
+
+The experiments which I have brought forward in this paper, in addition
+to those mentioned in my paper read before the Royal Society, will,
+I hope, justify me in having advanced a theory of magnetism which I
+believe in every portion allows at least experimental evidences of its
+probable truth.
+
+       *       *       *       *       *
+
+
+
+
+THE WESTINGHOUSE BRAKE.
+
+
+Below we illustrate the main parts of the Westinghouse brake as applied
+to a vehicle. The supplementary reservoir brake cylinder and triple
+valve are shown in position, and as fitted upon the engine, tender, and
+each vehicle of the train. Air compressed by a pump on the locomotive
+to, say, 70 lb. or 80 lb. to the square inch fills the main reservoir on
+the engine, and flowing through the driver's brake valve and main pipe,
+also charges the supplementary reservoirs throughout the train. When
+a train is running, uniform air pressure exists throughout its
+length--that is to say, the main reservoir on the engine, the pipe from
+end to end of train, the triple valves and supplementary reservoirs on
+each vehicle, are all charged ready for work, the brake cylinders being
+empty and the brakes off. The essential principle of the system is,
+that maintaining the pressure keeps the brakes off, but letting the air
+escape from the brake pipe, purposely or accidentally, instantly applies
+them. It follows, therefore, that the brake may be applied by the driver
+or any of the guards, or if necessary by a passenger, by the separation
+of a coupling, or the failure or injury to a vital part of the
+apparatus, whether due to an accident to the train or to the brake; and
+as the brake on each vehicle is complete in itself and independent,
+should the apparatus on any one carriage be torn off, the brake will
+nevertheless remain applied for almost any length of time upon the rest
+of the train.
+
+The triple valve, as will be seen, is simply a small piston, carrying
+with it a slide valve, which can be moved up or down by increasing or
+decreasing the pressure in the brake pipe. As soon as the air from the
+main reservoir is turned into the brake pipe, by means of the driver's
+valve, the piston is pushed up into the position shown, and air is
+allowed to feed past it through a small groove into the reservoir. At
+the same time the slide valve covers the port to the brake cylinder, and
+is in such a position that the air from the latter may exhaust into the
+atmosphere. The piston has now the same air pressure on both sides; but
+if the pressure in the brake pipe is decreased, the piston and slide
+valve are forced down, thereby uncovering the passage through which air
+from the reservoir flows into the brake cylinder between the pistons,
+thus applying the brakes. The brake pipe is shut off as soon as the
+triple valve piston passes the groove. To release the brakes, the piston
+and slide valves are again moved into the position shown, by the driver
+turning air from the main reservoir into the brake pipe. The air in the
+brake cylinder escapes, and at the same time the reservoir is recharged.
+
+[Illustration: THE WESTINGHOUSE BRAKE.]
+
+Fig. 2 represents two Westinghouse couplings connected. They are exactly
+alike in all respects, and an air tight joint is made between them by
+means of the rubber washers. These couplings are so constructed that the
+air pressure within serves to tighten the joint, and they may be pushed
+apart by the separation of the train without any injury. Such an
+occurrence as already explained leads to the instant application of all
+the brakes on the train.
+
+By closing the small tap shown between the brake pipe and the triple
+valve, the brake on any vehicle, if out of order, can be cut out of the
+system. A release valve is also placed upon each cylinder as shown, so
+that in the event of the brakes being applied by the separation of
+the train, or the breaking of a pipe, or when the locomotive is not
+attached, they can be released by allowing the air to escape from each
+brake cylinder direct. The Westinghouse brake has been made to comply
+thoroughly with the Board of Trade conditions. Many people, however, do
+not appear to understand all that is involved in the second requirement,
+which runs as follows: In case of accident, to be instantaneously
+self-acting. This clearly implies: First, that accident to the train,
+or to any of its vehicles, shall cause the instant application of
+the brakes to the wheels of every vehicle in the train without the
+intervention of the driver or guards. Secondly, that any injury, however
+caused, which may impair the efficiency of the brake apparatus, shall,
+in like manner, lead to the instant application of all the brakes on
+the train. It then becomes impossible for a driver to run his train in
+ignorance of any defect in his brake apparatus because such defect at
+once discloses itself by applying the brakes and stopping the train.
+Thirdly, that each vehicle shall carry its own brake power in such a
+manner that the destruction of the brake apparatus on one or more of the
+carriages shall not affect the efficiency of the brakes upon any of the
+others. No continuous brake which does not comply with such conditions
+can ever be satisfactory.--_The Engineer_.
+
+       *       *       *       *       *
+
+
+
+
+HYDRAULIC ELEVATORS AND MOTORS.
+
+[Footnote: Read at Buffalo meeting of the American Water-Works
+Association May 15,1883.]
+
+By B. F. JONES, Kansas City.
+
+
+What I have to say in relation to elevators and motors will be mostly in
+regard to questions that their uses necessarily bring up for settlement
+at the water-works office; also to show how I have been able in a
+measure to overcome some of the many difficulties that have presented
+themselves, as well as to discuss and seek information as to the best
+way of meeting others that still have to be dealt with. At the outset,
+therefore, let me state that I am not an hydraulic engineer, nor have
+I sufficient mechanical knowledge to undertake the discussion of the
+construction or relative merits of either elevators or motors. This I
+would respectfully suggest as a very proper and interesting topic for a
+paper at some future meeting by some one of the many, eminent engineers
+of this association.
+
+The water-works of Kansas City is comparatively young, and my experience
+only dates back six or seven years, or shortly after its completion.
+At this time it was deemed advisable on account of the probable large
+revenue to be derived from their use, to encourage the putting in of
+hydraulic elevators by low water rates. With this end in view a number
+of contracts were made for their supply at low special rates for a
+period of years, and our minimum meter rate was charged in all other
+cases, regardless of the quantity of water consumed. In most instances
+these special rates have since been found much too low, parties paying
+in this way being exceedingly extravagant in the use of elevators.
+However, the object sought was obtained, and now they are very
+extensively used. In fact, so much has their use increased, that the
+question is no longer how to encourage their more general adoption, but
+how to properly govern those that must be supplied. A present our works
+furnish power to about 15 passenger and 80 freight elevators, and the
+number is rapidly increasing.
+
+Before going into details it seems proper to give at least a brief
+description of our water-works, as my observations are to a great extent
+local.
+
+On account of the peculiar topography of Kansas City (and I believe it
+has more topography to the square foot than any city in the country)
+two systems of water supply have been provided, the high ground being
+supplied by direct pumping, and a pressure of about 90 pounds maintained
+in the business portion, and the lower part of the city being supplied
+by gravity, from a reservoir at an elevation of 210 feet, thus giving
+the business portions of the city, on high and low ground, about the
+same pressure. By an arrangement of valves, a combination of these
+two systems is effected, so that the Holly machinery can furnish an
+increased fire pressure at a moment's notice, into either or both pipe
+systems. Thus at some points the pressure is extremely high during the
+progress of fires, causing difficulties that do not exist where the
+gravity system of works is used exclusively.
+
+Elevators have become an established institution, and in cities of any
+commercial importance are regarded as a necessity, hotels, jobbing
+houses, factories, and office buildings being considered as far behind
+the times when not thus provided, as a city without a water supply or a
+community without a "boom." The use of elevators has made it practicable
+and profitable to erect buildings twice as high as were formerly thought
+of. Perhaps some of the most notable examples of this are in New York
+city, where such structures as the Mills building, the buildings of the
+_Tribune, Evening Post_, and Western Union Telegraph Co.. tower high
+above the surrounding blocks, monuments of architecture, that without
+this modern invention would reflect little credit upon their designers.
+It is now found less labor to go to to the fifth, sixth, or even tenth
+floors of these great buildings than it was to reach the second or
+third, before their use. In these days, merchants can shoot a ton of
+goods to the top of their stores in less time than it would take to get
+breath for the old hoist or "Yo, heave O" arrangement. Thousands of
+dollars are sometimes expended on a single elevator, the cars are
+miniature parlors, and the mechanism has perhaps advanced to nearly the
+perfection of the modern steam engine. If then they have become such a
+firmly established institution, their bearing upon the water supply of
+cities is a subject to be carefully considered.
+
+As before intimated, there are many questions involved in the use of
+hydraulic elevators, that particularly concern towns supplied by direct
+pumping, and perhaps other places where the supply by gravity is
+somewhat limited. In a few larger cities supplied by ample reservoirs
+and mains, some of the difficulties suggested are not serious. Very
+little power is necessary to perform the actual work of lifting, with
+either steam or hydraulic elevators, but on account of the peculiar
+application of the power, and the great amount of friction to be
+overcome, a very considerable power has to be provided. It has been
+estimated, by good authorities, that not more than one-quarter of the
+power expended in most cases is really utilized.
+
+With all hydraulic elevators of which I have cognizance, as much water
+is required to raise the empty cars as though they were loaded to
+maximum capacity. Still, to be available for passenger purposes
+elevators must have capacity of upward of 2,500 pounds, particularly in
+hotels, where the cars are often arranged with separate compartments
+underneath for baggage. In general use it is exceptional that passenger
+elevators are fully loaded; on the contrary less than half a load is
+ordinarily carried, and for this reason it would appear that no actual
+benefit is derived from at least one-half of the water consumed. In this
+connection it has occurred to me that passenger elevators could be built
+at no great additional cost, with two cylinders, small and large, the
+two piston rods of which could be connected so as to both operate the
+same cable, either or both furnishing power, the smaller cylinder to be
+used for light loads, the larger for heavy work, and the two together
+for full capacity, this independent valve arrangement to be controlled
+by a separate cable running through the car. Whether this plan is
+practicable or not must be left to elevator manufacturers, but it seems
+to me that with the Hale-Otis elevator for instance (which is conceded
+to be one of the best) it could easily be accomplished. Certainly some
+such arrangement would effect a great saving of water, and perhaps bring
+water bills to a point that this class of consumers could afford to pay.
+
+Hydraulic elevators where the water is used over and over again, by
+being pumped from the discharge to elevated tanks, cut little or no
+figure in connection with a city's water supply. When fuel, first cost,
+attendance of an engineer, and the poor economy of the class of pumps
+usually employed to perform this work are considered, the cost of
+operating such elevators is greatly in excess of what it would be if
+power were supplied direct from water mains, at any reasonable rate. The
+following remarks will then relate almost exclusively to that class of
+hydraulic elevators supplied with power directly from the water mains.
+
+Let us now consider whether they are a desirable source of revenue, and
+in this my knowledge does not exceed my actual experience. Few elevator
+users appreciate the great quantity of water their elevators consume.
+Even in Kansas City, where, on account of the high pressure carried,
+much smaller cylinders than ordinarily are required, it is found that
+passenger elevators frequently consume 500,000 to 800,000 gallons of
+water per month, which will make a very considerable bill, at the most
+liberal rates. I have, therefore, concluded that the quantity of water
+was so large that, unless liberal concessions were made, it would be a
+hardship to consumers to pay their water bills, and have therefore made
+a special schedule, according to quantity, for elevators and motors,
+these rates standing below our regular meter rates, and running to the
+lowest point at which we think we can afford to furnish the water. This
+schedule brings the rate below what we would receive for almost any
+other legitimate use of water; and, in view of our rapidly increasing
+consumption, and the probability of soon having to increase all our
+facilities, it is an open question whether this will continue a
+desirable source of revenue.
+
+In Kansas City we have elevators of various manufacture: the Hale-Otis,
+Ready, Smith & Beggs, O'Keefe, Kennedy, and perhaps others, each having
+its peculiarities, but alike demanding large openings in the mains
+for supply. These large openings are objectionable features with any
+waterworks, and especially so with direct pumping. An occurrence from
+this cause, about two years ago, is an experience I should not like
+repeated, but is one that might occur whenever the pressure in the mains
+is depended upon to throw fire streams. In this instance a large block
+of buildings occupied by jobbing houses and having three elevators was
+burned down, and the elevator connections broken early in the fire,
+allowing the water to pour into the cellars in the volume of about
+twelve ordinary fire streams. This immense quantity of water had to be
+supplied from a 6-inch main, fed from only one end, which left little
+pressure available for fighting the fire, and as a matter of course
+failure to subdue the fire promptly was attributed to the water-works.
+We have since had up hill work to restore confidence as to our ability
+to throw fire streams, although we have demonstrated the fact hundreds
+of times since.
+
+From this time we have been gradually cutting down on the size of
+openings for elevator supply, but under protest of the elevator agents,
+who have always claimed that they should be allowed at least a 4-inch
+opening in the mains, until we have found that under 80 to 90 pounds
+pressure two to four 1-inch taps will answer the purpose, provided the
+water pipes are of ample size.
+
+The "water hammer" produced by the quick acting valves of elevators has
+always been objectionable, both in its effect at the pumping-house
+and upon water mains and connections. To obviate this, Engineer G. W.
+Pearson has suggested the use of very large air chambers on the elevator
+supply, and still smaller openings in the mains, his theory being that
+the air chambers would not only materially decrease the concussion or
+"water hammer," but that they would also act as accumulators of power
+(or water under pressure) to be drawn from at each trip of the elevator,
+and replaced when it was at rest. This plan I have never seen put to
+actual test, but believe it to be entirely practicable, and that we will
+have to ultimately adopt it.
+
+All things considered, the plan of operating elevators from tanks in
+the top of buildings, supplied by a small pipe connected with the
+water-mains and arranged with a float valve to keep the tank filled, I
+believe to be the best manner of supply, except for the great additional
+cost of putting up such apparatus. By this arrangement the amount of
+water consumed is no less, in fact it would ordinarily be more than with
+a direct connection with the mains, but it has the advantage of taking
+the water in the least objectionable manner. Still, if this mode of
+supply were generally enforced, the large first cost, an additional
+expense of operating, would undoubtedly deter many from using elevators.
+
+Another evil in connection with the use of elevators, and which no doubt
+is common, is the habit many parties have of keeping a key or wrench to
+turn on and off the water at the curb. This we have sought to remedy
+by embracing in our plumbers' rules the following: "All elevator
+connections in addition to the curb stop for the use of the Water
+Company must be provided with another valve where the pipe first enters
+the building for the use of occupants of the building." Without this
+extra valve it was found almost impossible to keep parties from using
+the curb valve. In most cases the persons were perfectly responsible,
+and as there was no intent to defraud the company by the act, they would
+claim this privilege as a precaution against the pipes bursting or
+freezing. This practice was very generally carried on, and was the
+direct cause in at least two cases of very serious damage. In the
+instances referred to, the pipes burst between the elevator and the
+area wall of buildings, and the valves outside had become so worn
+from frequent use that they would not operate, allowing the water to
+literally deluge the basements before the water main could be turned
+off.
+
+One of the greatest causes of waste from elevators is the wearing out of
+the piston packing, this being particularly troublesome in most of the
+Western cities, where the water supplied is to a large extent from
+turbid streams, carrying more or less fine sand or "grit," which cuts
+out the packing of the pistons very rapidly. The only practicable remedy
+for this is close inspection, to see that the pistons do not allow water
+to pass, a fact that can readily be determined from the noise made in
+the cylinder when the elevator is in motion going upward.
+
+I have reserved one of the most annoying features of elevator supply for
+the last, hoping to work myself into a mood to do the subject justice,
+but doubt if it can be done in language proper to use before this
+dignified body. I remember on one occasion the mayor of our city, in
+discussing a job of plumbing, said that it seemed to him "that even a
+plumber ought to know something about plumbing." Now it would seem that
+even elevator agents ought to know something about elevators, but from
+the following incident, which is but one of many, I am led to believe
+that they are not infallible to say the least. Only a short time since,
+one of these very reliable (?) agents reported at our office that he had
+just attached a new indicator to the elevator of a leading hotel. He was
+asked: "What does it register?" and promptly replied, "Cubic feet."
+In this case our inspector had already made an examination, and had
+correctly reported as follows: "Hale elevator; indicator started at zero
+February 28; internal diameter of cylinder, 12 inches; travel of piston
+for complete trip 30� feet; indicator registers for complete trip, 4."
+
+When it is understood that we had for a long time been assuming that
+elevator agents knew about all there was to know on the subject, a
+comparison of statements of this agent and our inspector is somewhat
+startling. Now let us see what the difference amounted to: At the end of
+the month the indicator had registered 12,994; calling it cubic feet,
+this register would equal 97,195 gallons. According to our inspector,
+this same register would equal 578,233 gallons, or a difference of
+nearly half a million of gallons for a single month. Our experience with
+the agents in Kansas City has shown that they will, if allowed, put any
+kind of an indicator on the most convenient point of any sort of an
+elevator, without the slightest regard as to what it was intended to
+indicate; then report it as registering cubic or lineal feet, whichever
+they find the indicator marked. On the same principle they could as
+well change the fulcrum of a Fairbanks scale, and then claim it weighed
+pounds correctly, because pounds were marked upon the bar. We have
+lately prepared a blank, upon which these agents are required to make a
+detailed report upon the completion of an elevator before the water
+will be turned on, which it is hoped will to some extent correct this
+trouble.
+
+I have come to regard an elevator indicator with a feeling of wonder.
+Some years ago, when the "planchette" first came out, I remember that
+it acquired quite a reputation as a particularly erratic piece of
+mechanism, but for real mystery and _innate cussedness_, on general
+principles, commend me to the indicator. Why, I have known an indicator
+after registering a nice water bill, to deliberately and without
+provocation commence taking it all off again, by going backward. This
+crab-like maneuver the agent readily explained by saying the "ratchet
+had turned over," but even he was unable to show us how to make the
+bills after these peculiar gyrations. I also find that it is quite a
+favorite amusement for indicators to stop entirely, like a balky horse,
+after which no amount of persuasion will bring them to a realizing sense
+of their duty.
+
+Even at the best, these indicators are very apt to get out of order,
+necessitating greater watchfulness in supplying elevators than for any
+other purpose for which water is furnished.
+
+Accidents in connection with the use of elevators are common throughout
+the country, and in Kansas City had, until within a short time, become
+of altogether too frequent occurrence. The great cause of this I believe
+to be due to the fact that the parties who usually operate elevators
+are the very ones who know least about them; the corrosion of pistons,
+crystallization and oxidation of cables, and many other disorders common
+to elevators, being matters they do not comprehend. The frequency
+and fatality of these accidents in Kansas City finally led the city
+authorities to appoint an Elevator Inspector, who is under heavy bond,
+and whose duty is to examine every elevator at least once a month, and
+to grant license to run only such as he deems in safe condition. Thus
+far since the establishment of this office we have had no serious
+accidents, which leads me to the belief that in most cases a monthly
+examination will discover in time the causes of many terrible
+casualties; also that it is not safe to operate elevators unless so
+inspected by some competent person.
+
+The hatchways of elevators in large buildings are points greatly feared
+by firemen. They well know that when a fire once reaches this shaft, it
+takes but a moment for it to be carried from floor to floor, until the
+building is soon past saving. Although this great danger is well known,
+it is the exception rather than the rule to provide elevators with
+fire-proof hatches. A properly constructed elevator should, it seems
+to me, be provided with hatches, or better still, built within brick
+fire-proof walls, with openings to be kept closed when not in use. In
+this way costly buildings, valuable merchandise, and many lives would be
+saved from fire every year.
+
+Although considerable has been said on the subject of elevators, I am
+aware that the ground has not been covered, and that difficulties have
+been pointed out more than remedies suggested. There is much yet to be
+brought out by the engineers, to whom the subject more properly belongs.
+
+In the mean time, although elevators claim many of the objectionable
+features in the business of water supply, most of them are not of a
+nature that should condemn their use; on the contrary, I hope that
+with the joining of our experience there will be an improvement in the
+methods of their supply. Inasmuch as they must be furnished with water,
+all that can be done is to adopt such rules and fix such rates as will
+compensate in some degree for their objectionable qualities.
+
+
+WATER MOTORS.
+
+My remarks on this subject I trust will be more to the have been point
+than they upon the questions already discussed. Certainly my ideas are
+more decided, so far at least as supplying water motors is concerned.
+
+In many respects I believe water motors furnish as nearly perfect power
+as it is possible to attain. A motor, for instance, properly connected
+and supplied by the even pressure from a reservoir is probably the most
+reliable and steady power known, not excepting the most improved and
+costly steam engines. The convenience and little attendance necessary in
+operating make them especially desirable for many purposes. Where only
+small power is required, or even where considerable power for only
+occasional use is desired, they are particularly well adapted, and
+can be driven at small expense. Even for greater power they possess
+advantages over steam engines which, to a considerable extent,
+compensate for the large water rates that ought to be paid for their
+supply. These advantages are in the first cost of a motor, as compared
+with a steam engine, the saving in attendance and fuel, the convenience
+and cleanliness, and in some cases a saving in insurance by reason of
+their being no fire risks attendant upon its use. At just what point
+steam becomes preferable, however, is a question depending considerably
+upon water rates, but to some extent on other circumstances, leaving
+it largely a question of judgment. As with elevators, there are
+difficulties involved in their supply that unless carefully guarded make
+water motors anything but a desirable source of revenue. How often is
+the argument advanced: "Why, I only use water for a quarter of an inch
+jet!" Showing how little people who use motors or elevators or fountains
+realize the quantity of water they consume. This class of consumers may
+be placed on one footing, to wit, a class who, in spite of the fact that
+they are supplied with water for much less than any other, feel that
+they are imposed upon, and cannot be made to think otherwise.
+
+Though not as large as for elevator supply, water motors require liberal
+openings in the mains, and frequently the fault of having too small
+supply pipes is sought to be remedied by openings in the water mains
+much larger than needful. A table prepared by an engineer who had given
+the matter study, or by some motor manufacturer, showing the size of
+taps, or openings, for the proper supply of motors, with the various
+jets, under different pressures, would be of general use to water-works
+people. In order to use water to the best advantage, the full pressure
+in the main, so far as practicable, should be had at the jet, but in
+order to accomplish this it is not necessary to use as large taps as are
+ordinarily demanded, but to provide supply pipes of sufficient capacity
+to deliver the water to the point of discharge with the least possible
+friction. Lately this theory has been put in practice to some extent by
+us, and the result has shown that in this manner we are able to supply
+motors through smaller taps than beforehand with as satisfactory
+results.
+
+It is a general practice throughout the country to make annual or
+monthly rates for water motors, and from my observation I believe I can
+safely venture the assertion that in three-quarters of the cases the
+rates charged will not equal 50 per cent. of the lowest meter rates in
+force in these places. Although the Kansas City Water-Works has not
+perhaps been generally accorded the reputation of being the most liberal
+"monopoly" in the country, still I have had occasion at times to make
+some such claims as an inducement to its generous support. But with all
+its liberality, I am free to say that we cannot begin to meet the rates
+for motors that parties claim to have paid almost everywhere else.
+
+The St. Louis Water-Works, where the rates are substantially the same as
+in Kansas City, have been quoted as having the following motor rates,
+but whether correct or not my inquiries have failed to determine:
+
+"On the supposition that motors are to be used ten hours per day for 300
+days per year, motors are assessed for--
+
+  ___________________________________
+    1/4 inch jets | $120 per annum. |
+    3/8  "        |  198  "   "     |
+    1/2  "        |  300  "   "     |
+  ----------------+-----------------+
+
+These rates based upon a charge of 50 cents per 1,000 gallons."
+
+From Col. Flad's Report as Engineer of Public Works, May 1, 1876, p.70,
+it is found that with 42 pounds pressure a � inch orifice will discharge
+2,160 gallons per hour, 21,600 gallons in 10 hours, or 6,480,000 gallons
+in 300 days, which at 20 cents per 1,000 gallons would amount to $1,296,
+for which they assess the rate $300. From all of which I would conclude
+that there must be a lack of harmony somewhere between the engineering
+and office departments.
+
+I have made some estimates myself for water motors, basing rates upon
+the number of hours it was claimed the motors would be in use, and
+afterward supplied the same motors by meter measurement; in every case
+found that at least twice as much water was used as had been estimated.
+Although estimates were carefully made upon what was believed to be
+a reliable basis, these repeated similar results have led me to the
+conclusion that the only way to supply motors is to make it an object to
+the users of them to be economical. In other words, I believe the way to
+supply water motors is upon an estimate that they will run 24 hours per
+day and 365 days per year, or, more properly still, supply them only by
+meter measurement. At all events this is henceforth my policy; or, in
+other words, "on this rock I stand," believing it the only equitable way
+out of this difficulty.
+
+That class of motors or water engines operated by water pressure in
+close cylinders upon pistons as with steam in a steam engine, I believe
+could be easily supplied by measurement of water without a meter. This
+could be accomplished by the use of "revolution counters" or indicators,
+as the amount of water required per revolution could be readily
+determined, and when once computed the cylinders would measure out the
+water as accurately as a meter. The only objection to this plan is the
+expense of counters, which is considerable; and as to indicators, it may
+have been observed that I have little faith in their reliability. With
+cheap revolution this class of motors would be free from many of the
+objections raised in regard to motors generally.
+
+The practical conclusion that I would draw from a consideration of
+this subject is that the question of whether the supply of hydraulic
+elevators and motors is desirable in its effects upon the water supply
+is one that hinges so delicately upon their being carefully governed,
+connected, and restricted, that while on the one hand they may be made
+the source of large profit, and at the same time a public benefit, on
+the other hand, unless all the details of their supply be carefully
+guarded by the wisest rules and greatest watchfulness, their capacities
+for waste are so great and the rates charged necessarily so low, that
+they may become the greatest source of loss with which we have to
+contend. I therefore trust that this discussion will be continued until
+an interest is felt that will result in our all receiving much useful
+information upon two most important factors of our business.
+
+As this paper has been long for the information contained, I will close
+with the earnest wish that it may at least be of service in bringing
+these important but often neglected subjects to the attention of the
+thinking and intelligent body of men, of whom many have had much longer
+and more general experience in relation to these matters, and whose
+views when expressed will consequently be of more interest and have
+greater weight. Thus as a result may we all derive the benefit of
+whatever useful information there is to be gained by this annual
+interchange of experiences in the all-important business of public water
+supply.
+
+       *       *       *       *       *
+
+
+
+
+WATER SUPPLY OF SMALL TOWNS.
+
+
+We now describe the new waterworks lately erected for supplying the town
+of Cougleton, Cheshire. The population is about 12,000, and the place is
+a seat of the silk manufacture. After various expensive plans had been
+suggested, in the year 1879 a complete scheme for the supply of the town
+with water was devised by the then borough surveyor, Mr. Wm. Blackshaw,
+now borough surveyor of Stafford. These we now illustrate above by a
+general drawing, and a separate drawing of the tower. With respect
+to the mechanical arrangements, the Corporation called in Mr. W. H.
+Thornbery, of Birmingham, consulting engineer, to decide on the best
+design of those submitted, and this, with modifications made by him, was
+carried out under his inspection. The water, for the supply by pumping,
+is obtained from springs situated at the foot of Crossledge Hill, about
+a mile from the town. It does not at present require filtering, but
+space enough has been allowed for the construction of duplicate
+filtering beds without in any way interfering with the present
+appliances. These filter beds are shown in our perspective illustration,
+but they are not yet built or required.
+
+[Illustration: WATER SUPPLY OF SMALL TOWNS--CONGLETON WATERWORKS.]
+
+The waterworks are situated very near the springs, from which they are
+only separated by a road, under which the collecting pipes run. There
+are two circular collecting tanks of brickwork, two pumping wells,
+engine-house, boiler-house, chimney stack, and engine-driver's
+dwelling-house, all inclosed by a wall. On the top of Crossledge Hill is
+erected a circular brick water tower 35 ft. high to the underside of the
+service tank, which is of cast iron 30 ft. internal diameter, supported
+on rolled girders. The tank is capable of containing 50,000 gallons
+of water, and it is provided with the usual rising and service mains,
+overflow and washout pipes. There is an arrangement for pumping direct
+into the mains in case the tank should require cleaning or repairing.
+
+The pumping machinery is in duplicate, and each set consists of a
+horizontal condensing engine, with cylinder 18 in. diameter, stroke 30
+in., fitted with Meyer's expansion gear, governor, fly-wheel 12 ft.
+diameter, weighing 4 tons, jet condenser with a single acting vertical
+air pump, situated below the engine room floor, and between the end
+of the cylinder and the main pump. Each main pump is 10 in. diameter,
+horizontal, double-acting, worked by a prolongation backward of the
+piston-rod. The valves and seats are of gun metal, 8� in. diameter. The
+capacity is 350 gallons per minute, raised 206 ft. The air vessel is 21
+in. internal diameter and 6 ft. high, and is fitted with a hand pump for
+renewing the supply of air if necessary. The rising main from the air
+vessel to the service tank is 9 in. diameter, and 307 yards long, laid
+up the steep slope of the hill on which the water tower is built. The
+boilers, two in number, are of the ordinary Cornish single-flued type, 5
+ft. diameter by 18 ft. long, with flue 2 ft. 9 in. diameter, with three
+Galloway tubes. They were made by Messrs. Hill & Co., of Manchester. The
+engines and pumps were made by Mr. Albert Scragg, of Congleton, and the
+brick, stone, and builder's work was executed by Mr. Thomas Kirk. The
+waterworks were opened in the autumn of 1881, and since then have
+constantly afforded an abundant supply of water. There is also an
+independent gravitation system, also arranged by Mr. Blackshaw, for
+supplying an outlying part of the town. The cost of the works was
+exceedingly moderate, being not more than �12,000, including the water
+mains for distribution.
+
+
+PROCESS FOR SOFTENING HARD WATER.
+
+The available water of many villages and small towns is that of the
+chalk beds, but it is invariably very hard, and should be softened. We
+have received so many inquiries respecting a simple means of carrying
+out Clarke's water-softening process, that the following description
+of a set of apparatus devised for this purpose by Messrs. Law and
+Chatterton, MM.I.C.E., may interest many besides those who contemplate
+the construction of small waterworks supplied by the chalk springs.
+
+The apparatus, as made in various sizes by Messrs. Bowes, Scott,
+and Read, of Broadway-chambers, Westminster, we illustrate by the
+accompanying engravings.
+
+_Softening hard water_.--The disadvantages attending the use of hard
+water either for drinking purposes, steam generation, lavatory purposes,
+and for many manufacturing purposes, are well known, but as there are
+several methods of softening waters which are hard in different degrees
+by different substances, we may be pardoned if we here reproduce, for
+the convenience of some of our readers, a few passages from the sixth
+report of the River Pollution Commission, 1874, pages 21 and 201-16,
+which give some very valuable information on the relative merits of
+hard and soft waters in domestic and trade uses. "Some of the mineral
+substances which occur in solution in potable waters communicate to the
+latter the quality of hardness. Hard water decomposes soap, and cannot
+be efficiently used for washing. The chief hardening ingredients are
+salts of lime and magnesia. In the decomposition of soap these salts
+form curdy and insoluble compounds containing the fatty acids of
+the soap and the lime and magnesia of the salts. So long as this
+decomposition goes on the soap is useless as a detergent, and it is
+only after all the lime and magnesia salts have been decomposed at the
+expense of the soap, that the latter begins to exert a useful effect.
+As soon as this is the case, however, the slightest further addition of
+soap produces a lather when the water is agitated, but this lather is
+again destroyed by the addition of a further quantity of hard water.
+Thus the addition of hard water to a solution of soap, or the converse
+of this operation, causes the production of the insoluble curdy matter
+before mentioned. These facts render intelligible the process of washing
+the skin with soap and hard water. The skin is first wetted with the
+water and then soap is applied; the latter decomposes the hardening
+salts contained in the small quantity of water with which the skin
+is covered, and there is then formed a strong solution of soap which
+penetrates into the pores, and now the lather and impurities which it
+has imbibed require to be removed from the skin by wiping the lather off
+with a towel or by rinsing it away with water. In the former case the
+pores of the skin are left filled with soap solution; in the latter they
+become clogged with the greasy, curdy matter which results from the
+action of the hard water upon the soap solution which had previously
+gained possession of the pores of the cuticle. As the latter process of
+removing the lather is the one universally adopted, the operation of
+washing with soap and hard water is analogous to that used by the dyer
+and calico printer for fixing pigments in calico, woolen, or silk
+tissues. The pores of the skin are filled with insoluble greasy and
+curdy salts of the fatty acids contained in the soap, and it is only
+because the insoluble pigment produced is white, or nearly so, that so
+repulsive an operation is tolerated. To those, however, who have been
+accustomed to wash in soft water, the abnormal condition of skin thus
+induced is for a long time extremely unpleasant.
+
+Of the hardening salts present in potable water, carbonate of lime is
+the one most generally met with, and to obtain a numerical expression
+for this quality of hardness a sample of water containing 1 lb. of
+carbonate of lime, or its equivalent of other hardening salts, in
+100,000 lb.--10,000 gallons--is said to have 1� of hardness. Each degree
+of hardness indicates the destruction and waste of 12 lb. of the best
+hard soap by 10,000 gallons of water when used for washing. Hard water
+frequently becomes softer after it has been boiled for some time. When
+this is the case, a portion at least of the original hardening effect is
+due to the bicarbonate of lime and magnesia. These salts are decomposed
+by boiling into free carbonic acid, which escapes as gas, leaving
+carbonates of lime and magnesia; the latter being nearly insoluble in
+water, ceases to exert more than a very slight hardening effect, and
+produces a precipitate. As the hardness resulting from the carbonates
+of lime and magnesia is thus removable by boiling the water, it is
+designated temporary hardness, while the hardening effect which is due
+chiefly to the sulphates of lime and magnesia, and cannot be got rid of
+by boiling, is termed permanent hardness. The total hardness of water
+is therefore commonly made up of temporary and permanent hardness.
+A constant supply of hot water is now almost a necessity in every
+household, but great difficulties are thrown in the way of its
+attainment by the supply of hard water to towns forming thick calcareous
+crusts in the heating apparatus.
+
+Waters with much temporary hardness are most objectionable in this
+respect, and the evil is so great where the heating is effected in a
+coil of pipe, as practically to prevent, in towns with hard water, the
+use of this most convenient method of heating water. The property of
+being softened by boiling which temporarily hard water possesses is not
+of much domestic use, for water is, as a rule, either not raised to a
+sufficiently high temperature or not kept at it for a long enough time.
+Seeing then the disadvantages attendant on the use of hard water, it
+remains to be considered how best to soften it. Four processes are known
+to the arts. They are: Distillation, carbonate of soda, boiling, lime.
+Of these processes the first and second are the most effective, but
+owing to their expense are not applicable on a large scale. The third
+and fourth processes are efficient only with certain classes of water,
+rendered hard by the presence of the bicarbonate of lime, magnesia,
+or iron. The fourth is, however, a very cheap process, and is easily
+applicable to the vast volumes of water supplied to large cities,
+provided the hardening ingredients are of the character described.
+
+_Softening by distillation_.--By evaporation, water is completely
+separated from all fixed saline matters, and consequently from all
+hardening matters. Distilled water, however, has a vapid and unpleasant
+taste, due partly to deficient aeration and partly to the presence of
+traces of volatile organic matter; and though filtration through animal
+charcoal will remove this, and the aeration can begin chemically, the
+process is too expensive, except in certain cases, as on board ship, or
+at military or naval stations where no potable water exists.
+
+_Softening by carbonate of soda_.--The hardness of water, as already
+explained, being principally due to the presence in solution of
+bicarbonates and sulphates of lime and magnesia, can be reduced by
+addition of carbonate of soda, which decomposes these salts slowly in
+cold water but quickly in hot, forming insoluble compounds of lime and
+magnesia, which are slowly precipitated as a fine mud, leaving the water
+charged, however, with a solution of bicarbonate and sulphate of soda.
+This process, on account of expense, is only applicable on a small scale
+to the water for laundry purposes, as the water acquires an unpleasant
+taste from the presence of the soda salts. For laundry purposes it is,
+however, valuable, as it effects a great saving of soap.
+
+_The softening of water by boiling_.--That portion of the hardness of
+water due to the presence of bicarbonate of lime, magnesia, or iron, is
+corrected by boiling the water for half an hour. During ebullition the
+bicarbonates, which are soluble, become carbonates, which are insoluble,
+giving off their carbonic acid as gas, rendering--by the precipitate
+produced, but not allowed in a boiler time to settle--the water muddy,
+but incapable of decomposing soap. To raise the temperature of 1,000
+gallons of water to the boiling point and to maintain it for half an
+hour requires the consumption of about 2� cwt. of coal, or by the
+wasteful appliances found in households, probably three times that
+amount. Softened by boiling, then, 1,000 gallons of water would cost
+about 7s. 6d., while the cost of softening the same amount by soap is
+9s., at �2 6s. 6d. per cwt.
+
+_The softening of water by lime_.--The economy which carbonate of
+soda exhibits in comparison with soap as a softening material is far
+surpassed by the use of lime. Lime costs about 8d. per cwt., and this
+weight of lime will soften the same volume of water as would require the
+use of 20� cwt. of soap. From the above it is evident--so soon as it is
+conceded that there is an advantage in using soft water--that the lime
+process is by far the most economical. Besides the chemical action
+affecting the hardness, it has another most important mechanical action,
+in consequence of the weight of each particle composing the precipitate
+produced by it. These particles during subsidence become attached to the
+almost microscopical organic impurities present in all river water, and
+drag them down to the bottom of the settling tank, whereby the water is
+rendered, after some eight hours, clear as crystal. The average cost of
+the water supplied by the leading metropolitan water companies is �10
+10s. 9�d. per million gallons. The charge made by the companies to
+consumers is about 6d. per 1,000 gallons, or �25 per million gallons.
+It has been found that water can on a large scale be softened from 14�
+hardness to 5� at a cost of 20s. per million gallons--that is, 10 per
+cent. on the cost of the water to the companies, or 4 per cent. as the
+price charged to consumers. This estimate does not take into account the
+value of the precipitated chalk, which has a market price, and is used
+for many purposes, being, in fact, whiting of the purest quality. The
+operations necessary in Clarke's process are four in number: (1) The
+preparation of milk of lime; (2) the preparation of a saturated solution
+of lime; (3) the mixture of this solution with the water to be softened;
+(4) the classification of the softened water by the separation of
+the precipitated substances Messrs. Law and Chatterton effect these
+processes by simple mechanical means which are so far automatic that
+they only require the presence of a person, without technical knowledge,
+once in each twenty-four hours. No filtering medium whatever is
+required, which is a great advantage for the following reasons: (1)
+Filtering materials require periodical cleaning and renewal, which
+not only occasion much trouble and mess, but are also frequently
+inefficiently performed. (2) Experience has shown that the filtering
+material, whether cloth, charcoal, or other substance, is extremely
+liable to become mouldy or musty, which makes the wafer both unwholesome
+and unpalatable. This system is especially adapted for small water
+supplies and for use in country houses, there being no operation to
+perform requiring either technical, chemical, or mechanical knowledge,
+nor producing dust or dirt.
+
+[Illustration: Fig. 1.--LAW AND CHATTERTON'S WATER-SOFTENING APPARTUS.]
+
+The following is a description of this apparatus as fitted at the
+Hoo, Luton, Bedfordshire, for the supply of Mr. Gerard Leigh's house,
+grounds, and home farm. The mixing of the lime and the subsequent
+stirring of the water is effected by water power obtained from a
+turbine. The whole of the apparatus and tanks occupy a space 60 ft.
+square, 3,600 ft. area, and soften a daily supply of 50,000 gallons.
+
+[Illustration: Fig. 2]
+
+A pump driven from the turbine forces the water to a reservoir in the
+park and on to the house, an ingenious automatic arrangement worked by
+the overflow from the cistern throwing the pump out of gear when the
+tank is full. A, B, and C. Figs. 1 to 6 herewith, are three tanks in
+which the water remains to be softened, each capable of holding one
+day's supply. D and E are two smaller tanks in which the lime water is
+prepared; X is the automatic valve apparatus by which the connections
+between the several tanks are effected in the order and at the times
+required; H and H show the positions in which two pumps should be
+placed, the former for pumping unsoftened water into the tanks, the
+latter to pump the softened water into the supply cistern. J is the pipe
+from the well or other source of supply--in case the supply is at a
+higher level, one pump can be dispensed with. The operation consists in
+adding to the water to be softened a certain quantity of lime water,
+depending upon the degree of hardness, and in then allowing the mixture
+to rest in a state of perfect quiescence until the whole of the lime has
+been deposited and the water has become perfectly clear. The tank, A,
+has been filled with unsoftened water. Tank B contains the water
+and lime in process of clarification by subsidence after mechanical
+agitation by the screw. Tank C contains the softened water--and the
+precipitate--in process of removal for consumption. The mode of working
+is as follows: The milk of lime, prepared by slaking new lime in a
+"Michele mixer"--not shown. One of the tanks, D, having been filled with
+softened water, run by gravity from one of the tanks, A, B, or C, the
+requisite amount of milk of lime is allowed to flow into it from the
+lining machine, and the whole having been thoroughly mixed by the patent
+agitator, G, is left in a quiescent state for some hours, when the
+superabundant lime falls to the bottom, and the tank contains a
+perfectly clear and saturated solution of lime. The requisite quantity
+of lime water is then suffered to flow by gravity into whichever of the
+three tanks is empty. In the mean while, the softened water is being
+withdrawn by pumping or gravitation, as the case may be, from the tank
+C, until, upon the water being lowered to within a certain distance of
+the bottom, an automatic arrangement shifts the valve, X, so that the
+supply then commences from B, the unsoftened water flows into C, and
+the water is in process of clarification in A, and thus the operation
+proceeds continuously. Where the water can be supplied by gravitation,
+and the tanks can be placed at a sufficient elevation to command the
+service cistern, no pumps are required, the softening process, in fact,
+in no way necessitating pumping. The space occupied by the whole of the
+tanks and apparatus is 60 ft. square, 3,600 ft. area, and softens 50,000
+gallons per day. For the daily softening of quantities less than 1,000
+gallons, the tanks are made of galvanized sheet iron, and the whole
+apparatus and tanks are self-contained, so as only to require the making
+of the necessary connections with the existing supply and delivery
+pipes, and fixing in place. No expensive foundations are required, and
+the entire cost of an apparatus--see Figs. 2, 3, 4, 5, and 6--capable of
+softening 500 gallons per day is about �75. Annexed is a more detailed
+description of the manner of fixing and working the smaller apparatus.
+
+[Illustration: Fig. 3]
+
+The tank must, of course, be set up perfectly level. The pipe from the
+source of supply--in the present case from the hydraulic ram--must
+be attached to the upper three way cock at A, on the accompanying
+engravings, and the pipe to supply softened water is to be connected
+to the lower three-way cock at B, and should be led into the elevated
+cistern with a ball cock so as to keep it always filled. The three ball
+cocks in C, D, and E should be adjusted to allow the tanks to fill to
+within 3 in. of the top. The nuts at the upper extremity of the three
+rods, F, G, and H, should be so adjusted that when the water in the
+several tanks has been drawn down to within 15 in. of the bottom the
+rocking shaft, I I, is drawn down and the vertical rod, J, lifted so as
+to allow the wheel, K, and spindle, L, to revolve by the action of the
+weight, M. The length of the chain is such that when the weight, M,
+rests upon the floor the face of the raised rim on the wheel, K, should
+not quite touch the rod, J, and if necessary, a thin packing should be
+put for the weight to drop upon. The lime to be used should be pure
+chalk lime free from clay, mixed with water to a smooth, creamy
+consistency, and then poured into the small tank, N. This tank should
+then be filled with water to within 3 in. of the top, and the small air
+pump worked until the lime has become thoroughly mixed and diffused
+throughout the water. Care must be taken that previous to filling the
+tank the float, O, is raised up, as shown by the dotted lines in Fig. 3.
+After the lime has been thoroughly mixed it should be left for at
+least eight hours for the superabundant lime to subside, leaving the
+supernatant fluid a perfectly clear saturated solution of lime. At the
+end of this time the float, O, should be lowered, so that it may float
+upon the lime water, and the three-way cock, P, should be turned in such
+a position as to allow the contents of the tank, N, run into the
+tank, Q, until the necessary quantity has been supplied, the mode of
+determining which is hereinafter described.
+
+[Illustration: Fig. 4]
+
+The spindle, L, should then be turned into the position which allows the
+water from the source of supply to be discharged into the tank, Q, the
+float, R, having first been raised into the position shown in Figs. 2
+and 5. A second quantity of the lime should now be added to the tank, N,
+mixed with water, and after agitation, another eight hours allowed for
+the contents of both the tanks, Q and N, to subside. At the end of
+this time the three-way cock, P, should be turned through a third of
+a circle, so as to discharge the lime water into the tank, S; and the
+spindle, L, should be turned in the contrary direction to the hands of a
+watch through the third of a circle, so as to allow the water from the
+source of supply to be discharged into the tank, S, care being taken as
+before to raise the float, T, out of the water. A third quantity of lime
+must be added to the tank, N, and now mixed with water to be drawn from
+the tank, Q, by the tap, U, and after agitation again left for eight
+hours to subside. The float, R, may now be lowered into the water in the
+tank, Q, when it will be found that the clear softened water contained
+in the tank, Q, will be discharged through the pipe attached to the
+bottom of the three way tap, B. The weight, M, must now be lifted about
+5 in., so as to allow the ring at the end of the chain to be moved back
+to the next stud on the wheel, K. The lime water in the tank, N, must
+next be discharged into the tank, V, and then another quantity of lime
+must be added to the tank, N, and filled up with softened water from the
+tank, S, by means of the tap, W, and after being duly agitated and left
+to subside. As soon as the softened water from the tank, Q, has been
+drawn down to within 15 in. of the bottom, the rod, H, will move the
+rocking shaft, I, and lift the rod, J, so releasing the wheel, K, and
+allowing the weight, M, to descend and turn the spindle, L, and the
+upper and lower three-way cocks through a third of a circle; the effect
+of which movement will be to continue the supply of softened water from
+the tank, S, and to fill up the tank, V, with water from the source of
+supply.
+
+[Illustration: Fig. 5]
+
+The apparatus will now be in the condition to afford a regular supply
+of softened water; all that will be necessary to insure its continuous
+action will be that at certain stated intervals dependent upon the
+rapidity with which the water is used--but which interval should not
+be less than eight hours--the following things should be done: (1) The
+float must be raised out of the tank last emptied. (2) The float must be
+lowered into the tank last filled. (3) The weight, M, must be raised,
+and the ring of the chain shifted to the next stud on the wheel, K. (4)
+The clear lime water found in the tank, N, must be turned into the tank
+last emptied. (5) The requisite quantity of lime must be put into the
+tank, N. (6) The requisite quantity of water must be drawn off from the
+tank last filled into the tank, N. (7) The contents of tank, N, must be
+thoroughly mixed by means of the air pump. The quantity of lime to be
+used for each tankful of water must depend upon the hardness of the
+water, � oz. being required for each tankful for each degree of
+hardness. It is desirable, however, always to have an excess of lime in
+the tank, N, so as to insure obtaining a saturated solution of lime.
+When first mixed the contents of the tank, N, will have a creamy
+appearance, but when the superabundant lime has subsided the supernatant
+liquid will be a perfectly clear saturated solution of lime. Therefore,
+in the first instance, 3 lb. of lime should be put into the tank, N, and
+subsequently each time such a quantity of lime should be added as is
+found to be necessary by the method hereinafter described. The quantity
+of the saturated lime water to be run into each of the softening tanks,
+Q, S, and V, will depend upon the hardness of the water. For every
+degree of temporary hardness a depth of 1-6/10 in. of the contents of
+the tank, N, will be required; so that if the water has 14 deg. of
+temporary hardness, then 22� in. in depth of lime water must be run off
+into each of the tanks, Q, S, and V. In the first instance an excess of
+lime may be used, and the softened water tested by means of nitrate of
+silver in the following manner: A solution of 1 oz. of nitrate of silver
+in a pint of twice distilled water should be obtained. Having let two
+or three drops of this solution fall on the bottom of a white tea cup,
+slowly add the softened water; then if there be any excess of lime, a
+yellow color will show itself, and the quantity of lime water used must
+be reduced until only the faintest trace of color is perceptible.--_The
+Engineer_.
+
+[Illustration: Fig. 6]
+
+       *       *       *       *       *
+
+
+
+
+IMPROVED WATER METER.
+
+
+We annex illustrations of a meter designed by Mr. A. Schmid, of Z�rich,
+and which, according to _Engineering_, is now considerably used on
+the Continent, not only for measuring water, but the sirup in sugar
+factories, in breweries, etc. It consists of a cast iron body containing
+two gun-metal-lined cylinders, and connected by an intermediate chamber.
+Round the body are formed two channels, one for the entrance and the
+other for the discharge of the water, etc., to be measured. Within the
+cylinder are placed two long pistons, provided with openings in such
+a way that each piston serves as a slide valve to the other, the flow
+being maintained through the ports in the connecting chamber. The
+arrangement of openings in the piston is shown in Figs. 5, 6, 7, and the
+intermediate passages in Figs. 1, 2, and 3. To the upper side of each
+piston is attached a cross-head working on a disk placed at each end of
+a horizontal shaft. To one of the disks is added a short connecting rod
+that drives the spindle of a counter.
+
+[Illustration: SCHMID'S WATER METER.]
+
+       *       *       *       *       *
+
+
+
+
+WASHING MACHINE FOR WOOL.
+
+
+The washing machines in use for wool on the rake principle have during
+the last few years experienced many improvements in the details of
+their arrangement, which we have illustrated at different times in our
+columns. The introduction of these improvements and alterations shows
+that the washing of wool has attracted more attention on the part of
+observant manufacturers and machine makers, and demonstrated at the same
+time that the machines hitherto in use, with all their advantages, left
+much to be desired in other respects. The main difficulty with all
+washing machines for wool has been the avoidance of felting of the wool,
+which tendency is increased by the use of warm water for washing and by
+the agitation that some consider necessary for a thorough cleansing of
+the wool and removal of the adhering impurities, but which agitation is
+deprecated by others.
+
+[Illustration: IMPROVED WOOL WASHING MACHINE.]
+
+Referring to our different illustrations of improvements in this
+direction, our subscribers will observe that the tendency of all these
+has been to keep the wool floating in the water, and to apply all
+mechanical appliances required for its cleansing and pressing as much as
+possible while it is in this suspended condition. The success which the
+different appliances and improvements mentioned by us have had when used
+for the class of wool for which they are intended, has induced us to
+look up any attempts in a similar direction which have been made on the
+Continent, where the subject has attracted attention, as well as with
+us. We therefore give the annexed illustration of a machine invented by
+a German woolen manufacturer, which in many respects is a wide departure
+from the acknowledged type in use in this country. As with the English
+machines, the wool enters from a creeper at one end, passes through a
+long trough, filled with water or lye, ascends an inclined plane, and
+passes out through a pair of squeezing rollers. The invention mentioned
+applies to the treatment in the trough which latter is shown in our
+illustration at K. It has a second bottom, a little distance from a
+false one, at K. The false bottom is traversed in its whole length by
+an air pipe, communicating with the atmospheric air outside the trough.
+From this longitudinal pipe other pipes branch off at right angles at
+stated intervals, as shown in section in Fig. 2. These smaller pipes
+contain a number of small perforations on their upper part, through
+which the air ascends into the water in innumerable small bubbles. This
+is one of the principal aims of the invention, for in ascending the
+bubbles lift the wool more or less to the surface and tend to open it
+out without the risk of doing so by any mechanical means liable to
+produce felting. This is the same effect that is produced in many cases
+so successfully in boiling. Instead of rakes the inventor has placed
+four hexagonal drums into the trough, marked D, E, F, G. The flat parts
+of these drums are made of perforated metal and set back a little. This
+produces an alternate passing of the water into and out of them during
+their revolution and consequent sucking and repulsing of the wool, which
+also likewise agitates it. These drums are made wide at the entrance end
+of the trough and gradually narrower toward the delivery end. The pipe,
+V V, is the usual steam pipe for heating the water.
+
+We have said before that the improvements introduced into the wool
+washing machines nearer home have been of advantage for the wools for
+which they are intended, and possibly the invention just described will
+also be valuable in some cases.--_Tex. Manuf._
+
+       *       *       *       *       *
+
+
+
+
+INCREASING THE ILLUMINATING POWER OF GASES, ETC.
+
+By V. POPP, of Paris.
+
+
+This invention relates to lighting by mixing air or other gaseous
+supporter of combustion with illuminating or other hydrocarbon gas or
+vapor, and burning the mixture (at a suitable pressure) in a burner of
+special construction, shown in the accompanying illustrations.
+
+[Illustration]
+
+The burner is constructed as shown in Figs 1 and 2. It consists of a
+central tube, i, screwing upon the pipe by which the gaseous mixture is
+supplied. Upon this tube is screwed a cup, k, of metal or refractory
+material which supports a cap, l, of fire-clay in the shape of a thimble
+(or of other form, according to the intended use of the burner). The
+flanged base of this cap is perforated with a ring of holes, m, as small
+and numerous as possible, and the sides of the cap are pierced with
+oblique perforations, n. The top of the tube, i, is provided with four
+small projections, upon which rests a copper cone, o, soldered to the
+tube at a point below the perforations in the base of the thimble. The
+cone is perforated at its lower end with small holes, p, the sum of
+whose areas is at least equal to the area of the tube. The thimble,
+l, is surrounded by an envelope, q, of platinum wire netting or other
+refractory material of the same form. The gaseous mixture arriving by
+the pipe, i, escapes at the upper orifices, r, and passes down against
+the interior surface of the cone, o, out at the orifices, p, and escapes
+through the orifices in the cap, l, at which it is burned. The cap is
+thereby raised to a high temperature; and the platinum wire sheath
+becoming incandescent radiates the light. The gaseous mixture, by coming
+first in contact with the copper cone and then with the refractory cap,
+becomes raised to an exceedingly high temperature before it is consumed.
+
+In the modified burner represented in Fig. 3, the metal cone and the
+fire-cap are truncated. The tube, i, is provided with a number of small
+perforations, r, at its upper end, the sum of whose areas is at least
+equal to the area of the tube, and by which the gaseous mixture is
+distributed within the chamber, k. Upon the upper closed end of the tube
+is fixed a cup or inverted thimble, o, of fire-clay. A refractory cone,
+l, surrounds this cup and rests by its base upon the cup. This flanged
+base is perforated with small vertical holes, m, and upon it is fixed a
+platinum wire cage or envelope, q. An annular space is left between the
+cone and cup for the passage of the gaseous mixture, which, on escaping
+from the orifices, r, passes over the exterior surface of o, the
+interior of which is already heated by the flame which has not passed
+through the wire gauze, and has been forced by the pressure of the
+mixture into the interior of o. The gaseous mixture before passing
+through the annular space thus attains such a temperature that on
+escaping from the orifice its combustion is greatly promoted.
+
+       *       *       *       *       *
+
+
+
+
+PREVENTING IRON FROM RUSTING.
+
+
+In the present state of civilization the use of iron has reached a very
+wide extension, and in a great number of cases iron is used where wood
+or stone was formerly used. It is certainly an important question how
+this metal can be protected under all circumstances against rust or
+oxidation, so that the many costly iron structures may retain their
+usefulness and strength, and be handed down uninjured to posterity.
+
+Wherever bright iron comes into contact with air and moisture it
+immediately begins to rust, and this rust is not content to continually
+rob it of its substance in its persistent progress by scaling off the
+surface, but at the same time it injures the remainder of the iron by
+making it brittle. Attempts have hitherto been made to protect the iron
+by covering it with other and less easily oxidizable metals. For this
+purpose tin was first selected, then lead and zinc, and recently nickel.
+Furthermore, earthy glazings and enamels, such as are used on stone
+ware, have been applied to iron vessels, and they have already found
+extensive use in the household. In most cases these coatings, either
+metallic or vitreous, are inapplicable, either because they cannot be
+applied or are too expensive, so that on a large scale recourse must be
+had to paints made by mixing oils with metallic oxides, earths, etc.,
+for protecting the surface of the iron from air and moisture.
+
+It has been observed that iron does not rust in _dry_ air, not even in
+dry oxygen. In like manner it frequently happens that unpainted iron,
+such as weather vanes, fences, etc., is exposed to the air for a century
+with very little injury, being covered with a thin coating of the
+magnetic oxide (proto-sesquioxide), which acts as a protection and
+prevents farther action. Hence it has been proposed to produce a layer
+of this magnetic oxide on the surface artificially, and it was found
+that superheated steam furnished the means for doing this. But it is not
+to be supposed that such a process would find use on a large scale, and
+besides this protection could only serve for iron tolerably exposed to
+the open air and not for that in direct contact with carbonic acid and
+water.
+
+An interesting observation has been made on railways that the iron
+rails, ties, bolts, etc., rust until the road begins to be used. Here we
+must assume that anything made of iron is more inclined to rust when at
+rest than if occasionally caused to vibrate, when an electrical action
+probably comes into play and decreases the affinity of iron for oxygen.
+
+In tearing down old masonry iron bonds and clamps are often found which
+are as free from rust, so far as they are covered with mortar, as they
+were the day they left the blacksmith's hands. A French engineer met
+with such a phenomenon when he uncovered the anchor plates of several
+chain bridges which had been built about thirty years. Where the anchors
+were covered with the fatty lime mortar of the masonry they showed no
+traces of rust, but the prolongations of the anchors in empty spaces
+were rusted to such an extent that they were only one-third of their
+original thickness.
+
+It has been repeatedly observed that iron does not rust in water in
+which are dissolved small quantities of caustic alkalies or alkaline
+earths, which neutralize every trace of acid. It seems that these
+experiences are the basis of A. Riegelmann's (Hanau) new protection
+against rust. The paint that he uses contains caustic alkaline earths
+(baryta, strontia, etc.), so that the iron is in a condition similar to
+the iron anchors of the chain bridges that were embedded in lime mortar.
+Although a paint is not thick enough to inclose so much alkali as the
+masonry did that the iron was embedded in, nevertheless the alkaline
+action will make itself felt as long as the coating has a certain
+consistence. Under all circumstances, however, these new paints will
+be free from active acids, which is more than can be said of our iron
+paints hitherto in use. Besides this, the rust protector has such
+a composition that it could serve its intended purpose without the
+addition of any alkali. If experience confirms this claim, it will be an
+interesting step forward in the preservation of iron, and contribute to
+an extension in the use of iron.--_Polytechn. Notizblatt_.
+
+       *       *       *       *       *
+
+[Illustration: SUGGESTIONS IN DECOTATIVE ART.--A CUPBOARD IN ITALIAN
+WALNUT WITH DARKER PANELING.--_From The Workshop_.]
+
+       *       *       *       *       *
+
+
+
+
+AN ELASTIC MASS FOR CONFECTIONERS' USE.
+
+
+It should be made in a well glazed earthen crock; metallic vessels are
+not good, as the gelatine burns too easily on the sides, and dries
+out where it gets too hot. Nor is a water bath to be recommended for
+dissolving the gelatine, for the sides get too hot and dry out the
+gelatine.
+
+A quart of water is put in the crock and heated to boiling; it is then
+taken off the open fire and two pounds of the finest gelatine stirred
+in, a little at a time. After the gelatine is completely dissolved there
+is to be added eight or ten pounds (according to the quality of the
+gelatine) of the finest white sirup previously warmed, and constantly
+stirred. The mass must not boil, as it would easily burn, or turn brown
+and acquire a bad color.
+
+Thirty or forty pounds of a beautiful white elastic mass can be made by
+this recipe in an hour at a cost of ten or twelve cents. Its chief use
+is for making figures and ornaments to put on bridal cakes and other
+fanciful productions of the confectioner. It contains no harmful
+ingredients and can be eaten without danger. If coloring is added,
+cochineal, plant green (chlorophyl), and turmeric are safer than aniline
+colors.
+
+       *       *       *       *       *
+
+
+
+
+CAOUTCHOUC.
+
+
+A. Levy contributes the following brief account of this subject to the
+_Moniteur Scientifique_:
+
+The crude gum cut in irregular strips is passed five or six times
+between two strong rolls sixteen inches in diameter, and making two
+or three revolutions per minute. These rolls are kept wet by water
+trickling on them. This broad strip of gum is perforated with foreign
+substances and looks like a sieve. It is next put in the cutting
+machine, a horizontal drum provided with an axle having knives on it. So
+much heat is produced by this cutting that the water would soon boil if
+it were not renewed. A second machine of this kind completes the cutting
+and subdividing, and expels the air and water from it. The mass is then
+pressed in round or quadrangular blocks.
+
+The vulcanization of thin articles from one twenty-fifth to
+one-sixteenth inch thick, is done by Parkes' patented process, that is,
+dipping it in carbon disulphide for a short time, to which chloride or
+bromide of sulphur has been added, and when the solvent has evaporated
+the sulphur remains behind. Balls, ornamental articles, and surgical
+apparatus are dipped into melted sulphur at 275� or 300� Fahr.
+
+The third most important process consists in mixing in the sulphur
+mechanically with the gum in the cutting machine.
+
+After the pieces have received the form they are to have they are heated
+with steam or hot air to 275�. Flat articles are vulcanized between
+press plates heated by steam. This vulcanization is said to have been
+discovered accidentally by searching different colored stuffs, some of
+which were dyed yellow with sulphur; the latter stood well.
+
+Hard rubber contains more sulphur, and is heated longer and higher.
+Small or fine tubes and hose are made by a continuous machine that
+presses it through a hole with a core to it. Large hose is made by
+wrapping strips around iron rods or tubes. The little air balloons
+are made in Paris (their value is $300,000) by Brissonet from English
+Mackintosh cloth. Powdered soapstone is strewed over it in cutting. The
+edges are united by hammering on a horn anvil, or by machinery through
+simple adhesion, and the cut surfaces are smooth.
+
+       *       *       *       *       *
+
+
+
+
+PHOTOGRAPHIC ACTION STUDIED SPECTROSCOPICALLY.
+
+
+At the last meeting of the Chemical Society Captain Abney gave a lecture
+on the above subject to a large audience. We may premise by saying that
+the demonstrations he gave were carried out principally by means of
+experiments on paper, to enable his hearers to understand the different
+points he wished to enforce. The lecture was commenced by insisting on
+the fact that all photographic action took place within the molecules of
+the compound acted upon and not on the molecule itself, and from this
+he deduced that the absorption of radiation which take place by such
+compounds is principally caused by the atoms composing the molecule.
+This was found to be the case in the organic liquids, which the lecturer
+to some extent had investigated, where he had further traced the
+absorption to the vibrating atoms of hydrogen in those bodies. In
+order to properly investigate the action of light it was necessary to
+ascertain which components of light in the spectrum were the chief
+agents in causing it, and this led him to consider the means to be
+employed to obtain a spectrum.
+
+The effects of diffraction gratings were first discussed, and in two
+which were shown it was found that in some spectra the visible portions
+were dimmed; in others the ultra-violet and the infra-red were almost
+entirely absent. It thus became necessary to investigate the condition
+of a grating before placing any confidence in the results obtained. This
+was the first pitfall into which an experimentalist was liable to fall.
+If prisms were used for obtaining the spectrum, then precautions had
+also to be taken, since all glass absorbed a portion of the ultra-violet
+rays and some the infra-red. On the whole, he considered that the best
+glass to use was pure white flint glass for the collimator, the prisms,
+and the camera lens. Another inquiry that was necessary was the
+source of radiation which it was proposed to use. Diagrams showed the
+unsatisfactory nature of solar radiation, and a photograph of the whole
+spectrum, taken with it under certain atmospheric conditions in which
+the effect of the green rays were almost _nil_, demonstrated the false
+conclusions that might be deduced as to the sensitiveness of any
+particular compound.
+
+Captain Abney also showed the satisfactory conditions which existed in
+using the crater of the positive pole of the electric arc light as a
+source, and by diagrams illustrated the inferiority of an incandescent
+light for the purpose, owing to the deficiency of violet and
+ultra-violet rays. Having thus settled the source of illumination and
+the kind of apparatus to employ, he next considered the conditions under
+which the sensitive salts were to be exposed. The action of ordinary
+sensitizers was explained and demonstrated by experiments, from which
+point the results of certain colored sensitizers were considered. Thus,
+various aniline dyes were proved to be bromine absorbents, and likewise,
+more or less, to be capable of being acted upon by light in those
+regions of the spectrum they absorbed. The result of the two effects was
+to produce a developable image of the spectrum just in those parts to
+which the salt of silver was sensitive, and also in the parts where the
+dye itself was acted upon. The latter effect was traced to the organic
+matter being oxidized in the presence of the sensitive silver salt.
+
+The sensitizing effect of one silver compound upon another was then gone
+into, and experiments and photographs showed where two salts of silver
+were in contact with one another, and without an energetic sensitizer
+being at hand, that the one when acted upon by light absorbed the
+halogen liberated from the other through the same cause and that a new
+molecule was formed. This was of importance, since in photographic
+spectroscopic researches a conclusion might be arrived at that a
+body suffered absorption in those regions of the spectrum where this
+interesting reaction took place, whereas in reality the phenomenon might
+be due to the silver salts employed. This was another pitfall for the
+unwary. Again, it became necessary in studying photographic action to
+make sure that the effect of radiation was only a reducing action, and
+that the results were not vitiated by some other action.
+
+The destruction by oxidizing agents of the effect produced by light was
+then experimentally demonstrated, and photographs of the spectrum showed
+that this effect was increased by the action of light itself. Thus, when
+immersing a plate sensitive to all radiations, visible and invisible,
+in a very dilute solution of nitric acid, bichromate of potash, or
+hydroxyl, it was shown that if the plate were exposed to light, first
+the parts acted upon by the red rays were reduced before the parts not
+acted upon at all by the spectrum, thus conclusively proving that light
+itself helped forward the oxidation or so-called solarization of the
+image. It thus became a struggle, under ordinary circumstances, between
+the reducing action on the normal salt and the oxidizing action on the
+altered salt as to which should gain the mastery. If the reducing action
+of any particular ray were the most active, then a negative image
+resulted, whereas if the oxidizing action were in the ascendant, a
+positive image resulted. Thus, in determining the action of light on
+a particular salt, this antagonism had to be taken into account, and
+exposure made with such precautions that no oxidizing action could
+occur, as would be the case if an inorganic sensitizer, such as sulphite
+of soda, were used.
+
+The reversal of the image by soluble haloid salts, such as bromide of
+potassium, was then dwelt upon with experimental demonstration. It was
+shown that the merest trace of soluble haloid would reverse an image
+by the extraction of bromine from it, and the fact that the most
+refrangible part of the spectrum was principally efficacious in
+completing this action showed how necessary it was to avoid falling
+into error when analyzing photographic action by the spectroscope. A
+reference was next made to gelatine plates, in which, owing to their
+preparation, reversal through the above cause was most likely to take
+place, and a plate soaked in sulphite of soda and exposed in the camera
+for a couple of minutes--a time largely in excess of that necessary to
+give a reversal under ordinary circumstances--proved the efficacy of
+the oxygen absorber, the image remaining in its normal condition after
+development.
+
+The lecturer closed his remarks by showing the different molecular
+states of iodide, bromide, and chloride of silver, as produced by
+different modes of preparation. The color of the film by transmitted
+light in every case indicated the effect which was likely to be produced
+on them, and the photographed spectrum in each of them showed the
+remarkable differences that were found. The points raised by Captain
+Abney at different times are well worthy the study of scientific
+photographers, since strict attention to the modes of exposure to the
+spectrum, to the instruments employed, and to the source of light used
+can alone insure accuracy in comparative experiments.--_Br. Jour. of
+Photo_.
+
+       *       *       *       *       *
+
+
+
+
+SALT AND LIME.
+
+
+M.F.K. communicates the following interesting circumstance to _Neueste
+Erfindung_.: A few years ago it was decided to whitewash the walls
+and ceiling of a small cellar to make it lighter. For this purpose a
+suitable quantity of lime was slaked. A workman who had to carry a
+vessel of common salt for some other purpose stumbled over the lime
+cask and spilled some of his salt into it. To conceal all traces of his
+mishap he stirred in the salt as quickly as possible. The circumstance
+came to my knowledge afterward, and this unintentional addition of salt
+to the lime excited my liveliest curiosity, for the whitewash was not
+only blameless, but hard as cement, and would not wash off.
+
+After this experience I employed a mixture of milk of lime and salt
+(about three parts of stone lime to one part of salt), for a court or
+light well. To save the trouble and expense of a scaffold to work on, I
+had it applied with a hand fire engine (garden syringe?) to the opposite
+walls. The results were most satisfactory. For four years the weather
+has had no effect upon it, and I have obtained a good and cheap means of
+lighting the court in this way.
+
+       *       *       *       *       *
+
+
+
+
+RENEWING PAINT WITHOUT BURNING.
+
+
+It is stated in the _Gewerbeblatte fur Hessen_ that paint can be renewed
+and refreshed in the following manner:
+
+When cracks and checks appear in the paint on wooden articles, this
+usually indicates that the varnish has cracked. If this is the case, the
+article can easily be prepared for a fresh coat by sponging it over with
+strong ammonia water, and two or three minutes later scraping off the
+varnish with the broad end of a spatula before the ammonia has dried up.
+
+In this way the first coat is removed. If it is necessary to remove the
+next coating, the same operation is repeated. After the last coat
+has been scraped off that is to be removed, it must be washed with
+sufficient water to render the ammonia inactive, and then the surface is
+rubbed with pulverized pumice to make it smooth. Any desired paint or
+varnish can be applied to a surface prepared in this way.
+
+       *       *       *       *       *
+
+
+
+
+TESTING OLIVE OIL.
+
+By DR. O. BACH.
+
+
+There is no department in analytical chemistry in which so little
+success has been attained as in the testing of commercial fats and oils.
+All methods that have been proposed for distinguishing and recognizing
+the separate oils, alone or mixed, bear upon them the stamp of
+uncertainty.
+
+The facts observed by J. Koenig, and described by him in his excellent
+book entitled "_Die Menschlichen Nahrungs und Genussmittel_" (p. 248),
+excited great expectations; viz., that the quantity of glycerine in
+vegetable fats was much less than the amount required to combine with
+all the fatty acids, and that the quantity of oleic acid in the oils
+that he examined exhibited essential differences. Koenig himself asserts
+that the fats have hitherto been too little investigated to found upon
+it a method for distinguishing them, but that nevertheless it may
+possibly do good service in some cases.
+
+My own estimation of the amount of glycerine in different olive oils, by
+Koenig's method, has shown, unfortunately, that the percentage may vary
+from 1.6 to 4.68, according to the origin and quality of the oil. In
+like manner the estimation of the oleic acid, which was conducted
+essentially in the manner proposed by Koenig, showed that the amount of
+oleic acid in different olive oils varied from 45 to 54 per cent. But
+since cotton seed oil, for example, which is most frequently used to
+adulterate olive oil, contains 5 per cent. of glycerine, and 59.5 per
+cent. of oleic acid, it is easy to see an admixture of cotton seed oil
+cannot be detected by this method, which appeared to be so exact.
+
+The method of analysis that I am about to describe is based chiefly upon
+the determination of the melting point of the fatty acids contained in
+the oils, and upon their solubility in a mixture of alcohol and acetic
+acid.
+
+The oils employed in adulterating olive oil, and to which regard must be
+had in testing it, are the following: Cotton seed oil, sesame, peanut,
+sun flower, rape, and castor oils. The tests for the two last named
+have hitherto never presented any difficulty, as rape seed is easily
+detected, owing to the sulphur in it, by saponifying it in a silver
+dish, and castor oil by its solubility in alcohol. But in recent times
+another product has come into the market called sulphur oil or pulpa
+oil, obtained by extracting the pressed olive cake with sulphide of
+carbon. This also gives a sulphur reaction when saponified, while it
+resembles castor oil by its solubility in alcohol. When this oil is
+mixed with ordinary olive oil, it can easily deceive any one who uses
+the ordinary tests.
+
+My method of testing olive oil is as follows:
+
+First, the so-called elaidine test is made, and then the test with
+nitric acid. About 5 c. c. (a teaspoonful) of the oil is mixed in a test
+tube with its own volume of nitric acid, spec. gr. 1.30, and shaken
+violently for one minute. At the expiration of this time the oils will
+have acquired the following colors: Olive oil, pale green; cotton seed
+oil, yellowish brown; sesame, white; sun flower, dirty white; peanut,
+rape, and castor oils, pale pink or rose.
+
+As soon as the color has been observed, the test glass is put in a water
+bath at the full boiling temperature and left there five minutes. It was
+found that the action of nitric acid upon cotton seed and sesame oil was
+the most violent, sometimes so violent as to throw the oil out of the
+glass. At the end of another five minutes after the test tube is taken
+out of the water bath, the following colors are seen: olive and rape
+oils are red; castor oil is golden yellow; sun flower oil, reddish
+yellow; sesame and peanut, brownish yellow; cotton seed, reddish brown.
+
+After standing 12 to 18 hours at about 60� Fahr. the olive, rape, and
+peanut oils will have solidified; sun flower, castor, and cotton seed
+will be like salve (sticky), while sesame will remain perfectly liquid.
+Mixtures of olive oil with small quantities of cotton seed or sesame are
+distinguished by this characteristic--that, although the whole mass,
+which is darker in color than olive oil, solidifies at first, at the end
+of 24 or 36 hours a brown oil will be found floating upon the surface of
+the solid mass, while the lower strata exhibit the yellow color of pure
+olive oil. Oil of rosemary has no effect when shaken with cold nitric
+acid, and imparts to it only a slightly darker color on heating. Oils
+treated with lye act just like pure oils.
+
+Far the purpose of determining the melting point of the fatty acids, 10
+grammes of oil were saponified with 5 grammes of caustic potash on the
+water bath; some water and alcohol being added. After all the alcohol
+had been expelled the soap was dissolved in hot water, and the fatty
+acids separated from the clear solution by adding hydrochloric acid.
+After prolonged heating these acids will swim on the salt solution as
+a perfectly clear oil, a portion of which is then put into a little,
+narrow, thin walled tube and allowed to solidify. The point at with it
+melts and solidifies is determined by putting this tube in a beaker
+glass filled with water and warming with a small flame. A thermometer
+is placed _in_ the fatty acids and moved gently about during the
+observation, and the point accurately observed at which the whole mass
+becomes perfectly clear, and also when the mercury bulb begins to be
+clouded. It was found that the acids from pure olive oil melt between
+26� and 28�� C. (= 80� to 83� Fahr.) and solidify at a point not lower
+than 22� C. (72� Fahr.). The melting point of the fatty acids in the
+oils used to adulterate olive oil differs considerably from this. The
+melting and solidifying points of the acids in cotton seed, sesame,
+and peanut oils lie considerably higher, those of sunflower, rape, and
+castor oils decidedly lower than those of olive oil.
+
+The melting and solidifying points of these acids are as follows:
+
+  Cotton seed melts at 38.0�C.  solidifies 35.0�C.
+  Sesame       do.     35.0 do.    do.     32.5 do.
+  Peanut       do.     33.0 do.    do.     31.0 do.
+  Sunflower    do.     23.0 do.    do.     17.0 do.
+  Rape         do.     20.7 do.    do.     15.0 do.
+  Castor oil   do.     13.0 do.    do.      2.0 do.
+
+The above figures differ so much from those of olive oil, that
+adulteratious carried to the extent that they are in trade can easily
+be detected by the aid of an estimation of the melting point, for a
+Gallipoli olive oil, mixed with 20 per cent. of sunflower oil, melted at
+24� C. and solidified at 18� C. (of course, the fatty acids are meant).
+A Nizza oil, mixed with 20 per cent. cotton seed oil, melted at 31�� C.
+and solidified at 28� C. A Gallipoli oil with 33-1/3 per cent. of rape
+oil melted at 23�� C. and solidified at 16�� C. When 0.50 per cent. of
+rape is added, it melts as low as 20� and solidifies at 13�� C., etc.
+
+In testing the solubility of the fatty acids in alcohol and acetic acid,
+I employ the method proposed by David (in _Comptes Rendus_, 1878, p.
+1416) for estimating stearic acid.
+
+It depends upon the principle that when acetic acid is poured drop by
+drop into an alcoholic solution of oleic acid, there comes a time when
+all the oleic acid separates, but stearic acid, which is insoluble in
+a mixture of alcohol and acetic acid, remains insoluble if the mixture
+contains oleic acid.
+
+The following manipulations are adopted in testing olive oil: Equal
+parts of glacial acetic acid and water are mixed in a bottle. Then 1
+c.c. of pure oleic acid, 3 c.c. of 95 per cent. alcohol, and 2 c.c.
+of acetic acid are put in a small tube graduated in tenths of cubic
+centimeters. The solution should remain clear; on adding another
+one-tenth c.c. of acetic acid it becomes turbid, and when 1 c.c. of
+oleic acid (or at first even more) floats on the mixture of acid and
+alcohol, the liquid is ready for use. If this is not the case, the
+proportions (of acetic acid and alcohol?) must be varied until the
+addition of one-tenth c.c. of the former will cause all the oleic
+acid to separate. The proportions having been ascertained from
+these preliminary experiments, the alcohol and acid are then mixed
+accordingly, e.g., 300 of alcohol to 225 of acid. One or two grammes
+of stearic acid are added to the alcoholic acetic acid, and the clear
+supernatant liquid used for the experiments.
+
+One cubic centimeter of the oil (acids) to be tested is put in the tube,
+and 15 c.c. of alcoholic acetic acid added, well shaken, and the whole
+left to stand quietly at 15� C. (60� Fahr). If the olive oil is pure,
+the acids dissolve to a clear solution that remains so. Cotton seed
+oil is insoluble, and the solution obtained by heating the solution
+solidifies at 60� Fahr. to a white jelly. Sesame and peanut oil react
+in a similar manner. Sunflower oil dissolves, but at 60� a granular
+precipitate falls. Rape oil is entirely insoluble and floats like oil on
+the surface. Castor oil on the contrary dissolves completely, just like
+olive oil, and hence cannot be detected therein by this method. To
+detect this oil we must take the melting point of the acids along with
+the solubility of the oil itself in alcohol.
+
+Olive oil when mixed with 25 per cent. of cotton seed oil yields a
+granular precipitate, and so does 25 per cent. of sesame. Smaller
+quantities cannot be detected by these methods. For rape oil the limit
+is 50 per cent., and in smaller quantities the oil does not collect on
+the alcoholic solution. The decided lowering of the melting point of
+the fatty acids in combination with the sulphur reaction, and the
+insolubility of the oil in alcohol, also furnish a method of detecting
+when present in smaller quantities in olive oil.
+
+Although I am well aware that I am making public a research that is by
+no means free from objections, I nevertheless believe that it may be of
+use to those who have to undertake the ticklish and intricate analyses
+of commercial fats.--_Translated from the Chemiker Zeitung_, p. 355.
+
+Leipsic, Jan., 1883.
+
+       *       *       *       *       *
+
+
+
+
+ON THE THEORY OF THE FORMATION OF COMPOUND ETHERS.
+
+
+In a note presented to the Industrial Society of Mulhouse, A. Pabst
+discusses the different stages in the formation of compound ethers, as
+Williamson has explained the production of ordinary ethers by the action
+of sulphuric acid upon alcohol. Pabst has observed that the compound
+ethers are formed in an analogous manner. If alcohol, sulphuric acid,
+and acetic acid are heated together, acetic ether, we know, is formed.
+
+Pabst has shown that it takes place in three stages. In the first stage,
+ethyl sulphuric acid and water are formed; in the second, acetate of
+ethyl with the reproduction of sulphuric acid, which again converts a
+fresh quantity of alcohol into ethyl sulphuric acid.
+
+  (1) C_{2}H_{5}OH+HO,SO_{2}OH = C_{2}H_{5}O,SO_{2}OH+H_{2}O.
+      (Alcohol.) (Sulphuric acid.) (Ethyl sulphuric acid.)
+
+  (2) C_{2}H_{5}O,SO_{2}OH+C_{2}H_{3}O,OH =
+     (Ethyl sulphuric acid.) (Acetic acid.)
+
+       C_{2}H_{5}O,C_{2}H_{3}O+HO,SO_{2}HO.
+       (Acetate of ethyl.) (Sulphuric acid.)
+
+Pabst proved this by letting methyl sulphuric acid act upon a mixture of
+acetic acid and ethyl alcohol. He obtained by this process acetate
+of methyl and ethyl sulphuric acid. By the continued action of ethyl
+alcohol and acetic acid upon this mixture, of course, acetate of ethyl
+was formed. At the conclusion of the operation there was no longer any
+methyl sulphuric acid present in the liquid.
+
+In the course of his investigations, Pabst was led to a very practical
+method for preparing acetate of methyl, which consists in heating ethyl
+sulphuric acid to 135� or 140� C, and allowing a mixture of equal
+molecules of strong alcohol and acetic acid to flow into it.
+
+The details of his experiments and the method of purification will be
+published by the society.
+
+       *       *       *       *       *
+
+
+
+
+A GREEN OR GOLDEN COLOR FOR ALL KINDS OF BRASS.
+
+By E. PULCHER.
+
+
+The French brass castings and articles of sheet brass are made of cheap,
+light colored brass, and possess a fine golden color which is not
+produced by gold varnish, but by a coating of copper. This gives them a
+finer appearance, so that they sell better.
+
+This golden color can be easily produced at very little expense and with
+but little trouble by the following process. Fifty grammes of caustic
+soda and 40 grammes of milk sugar are dissolved in a liter of water
+and boiled for a quarter of an hour. The solution is clear as water at
+first, but acquires a dark yellow color. The vessel is next taken
+from the fire, placed on a wooden support, and 40 grammes of a cold
+concentrated solution of blue vitriol stirred in. A red precipitate of
+suboxide of copper is at once formed, and by the time the mixture cools
+to 167� Fahr., the precipitate will have settled.
+
+A suitable wooden sieve is placed in the vessel, and on this the
+polished articles are laid. In about one minute the sieve is lifted up
+to see how far the operation has gone, and at the end of the second
+minute the golden color is dark enough.
+
+The sieve and articles are now taken out, and the latter are washed
+and then dried in sawdust. If the brass is left longer in the copper
+solution, in a short time a fine green luster is produced, becoming
+yellow at first and then bluish green. After it turns green, then the
+well-known iridescent colors finally appear. To obtain uniform colors
+it is necessary that they be produced slowly, which is attained at
+temperatures between 135� and 170� Fahr.
+
+The copper bath can be used repeatedly and can be kept a long time if
+bottled up tightly without change. After it is exhausted it can be
+renewed by adding 10 grammes of caustic soda, replacing the water that
+has evaporated, heating to boiling, and adding 25 grammes of a cold
+solution of blue vitriol.
+
+Similar operations with other well known reducing agents, such as
+tartrate of soda, glycerine, etc., do not give such good colors, because
+they do not precipitate the copper solution so rapidly and at so low a
+temperature.
+
+If the rinsed and pickled brasses are dipped for five minutes in a three
+per cent. neutral solution of cocoa nut oil soap, and then washed with
+water again before they dry, the coating gains in permanence.
+
+Brass articles that have to be cleaned frequently should be covered with
+oil of turpentine, or thin English copal varnish.--_Neueste Erfind_.
+
+       *       *       *       *       *
+
+
+
+
+VINEGAR.
+
+
+Hermann Kratzer, of Leipsic, communicates the following practical
+information on the clarification and purification of vinegar to the
+_Neueste Erfindungen und Erfahrungen_:
+
+If vinegar has an unpleasant odor, which is rarer now that the vinegar
+manufacture has reached such a state of perfection, it may be removed as
+follows: Well burned and finely pulverized wood charcoal is put into
+the bottles containing the vinegar, the proportions being 8 grammes of
+charcoal to a liter of vinegar, or one ounce to the gallon. It is shaken
+several times very thoroughly, then left standing three or four days,
+and the vinegar filtered through a linen cloth. Vinegar treated in this
+manner will be found to have completely lost its unpleasant odor.
+
+I have found that when I used blood charcoal or bone coal in place of
+wood coal it was still more efficient; but it must be mentioned that
+when they are used they must be purified as follows before using:
+Charcoal from blood contains potash and hence it is necessary to wash it
+with distilled water and dry it before using it. Bone coal (also called
+bone black, animal charcoal, etc.) contains on an average 10 per cent.
+of nitrogenous and hydrogenated carbon, 8 per cent. of carbonate of
+lime, 78 per cent. of phosphate of lime, besides phosphate of magnesia,
+sulphate of lime, soluble salts, etc. Before using, it should be treated
+with dilute hydrochloric acid until it does not effervesce any more. The
+bone coal is then left to stand for 24 or 30 hours and at the end of
+this time is washed with distilled water until the wash water no longer
+reddens a blue piece of litmus paper, i.e., until every trace of
+hydrochloric acid has been removed from the bone coal. Wood charcoal
+may be treated in like manner. When this coal is perfectly dry it is
+employed in the same proportions as the other, 8 to 1,000, the operation
+being exactly the same.
+
+He turns next to the clarification of the vinegar.
+
+It happens everywhere that vinegar instead of being clear is sometimes
+turbid. This is due to particles of yeast dissolved in the vinegar that
+have not yet settled. To remove this kind of turbidity it is customary
+to use oak or beech shavings that have been washed in hot water and then
+dried. These shavings, which must be very long and extremely thin, are
+put in a barrel with a second and perforated bottom, to a depth of 12
+to 34 inches. The vinegar that runs through them deposits its slimy
+constituents on the shavings and becomes perfectly clear, and presents
+to the eye a pleasing appearance.
+
+To this generally known method I would add a few more:
+
+1. I take a � kilo of well pulverized _animal charcoal_ (black burned
+bones) to 7/8 of a hectoliter of vinegar (1 lb. to 20 gallons), and stir
+it well with a wooden rod; or, if the vinegar is in bottles, I shake it
+a long time after putting the animal charcoal in the bottle, and repeat
+it several times. After three or four days I finally filter the vinegar
+through linen, when the filtrate will exhibit the desired clearness.
+
+2. The best way to clarify vinegar is with _isinglass_. It is first
+broken up, then swelled for a day in vinegar (17 or 18 grammes to the
+liter), then 2 liters of vinegar are added and the mass boiled until the
+isinglass is completely dissolved. Such a solution as this (� ounce to
+3 quarts) is mixed with 10� hectoliters (250 gallons) of turbid vinegar
+and well stirred through it. After the expiration of five or six weeks
+vinegar treated in this way has a beautifully clear appearance.
+
+3. _Albumen_ can likewise be used to clarify it. The vinegar is boiled
+with the albumen until the latter is completely coagulated, and then the
+vinegar is filtered.
+
+4. And finally _milk_ may be employed. For this purpose the milk is
+skimmed, and 1 quart of milk added for every 68 quarts of vinegar,
+the mixture well stirred and shaken. After the caseous portion has
+coagulated (curdled) it is filtered as before, and in this case, too,
+the product is a fine, clear vinegar.
+
+We believe that these few experiments, so easily performed, and at so
+small an expense, will prove useful to our readers in enabling them to
+put their product in the market in an excellent condition and nicely
+clarified.
+
+       *       *       *       *       *
+
+
+
+
+THE ALIZARINE INDUSTRY.
+
+
+At a recent meeting of the Manchester section of the Society of Chemical
+Industry, Mr. Ivan Levinstein described the history and progress of the
+manufacture of alizarine, from which are produced fast red, purple,
+brown, and black dyes. He said alizarine was, until very recently, made
+only from the root of the madder plant, of which the yearly crop was
+70,000 tons, and represented an annual value of �3,150,000, of which
+the United Kingdom consumed 23,000 tons, representing a value of nearly
+�1,000,000.
+
+Madder is now no longer grown for this purpose. The German chemists
+found that alizarine produced from madder in undergoing certain
+treatment gave a substance identical with anthracine, one of the
+constituents of coal tar, and in 1869 the same chemists announced to
+the world that they had accomplished the synthesis of alizarine from
+anthracine. The effect of this discovery was to throw madder out of
+cultivation.
+
+Mr. Perkin, an English chemist, and Messrs. Graebe and Liebermann,
+German chemists, almost simultaneously applied for patents in 1869,
+in England, and as their methods were nearly identical they arranged
+priorities by the exchanging of licenses. The German license became the
+property of the Badische Aniline Company, and the English license became
+the property of the predecessors of the North British Alizarine Company.
+These patents expire in about two months, and the lecturer explained
+that an attempt made by the German manufacturers to further monopolize
+this industry (even after the expiry of the patent) proved abortive. He
+also stated that alizarine, 20 per cent. quality, is sold to-day at 2s
+6d. per lb., but that if the price were reduced by one-half there will
+still be a handsome profit to makers, and that the United Kingdom is the
+largest consumer, absorbing one-third of the entire production, and that
+England possesses advantages over all other countries for manufacturing
+alizarine--first, by having a splendid supply of the raw material,
+anthracine; secondly, cheaper caustic soda in England than in Germany by
+fully �4 per ton; thirdly, cheaper fuel; fourthly, large consumption at
+our own doors; and, fifthly, special facilities for exporting.
+
+The advantages derived from the development of the alizarine manufacture
+here, it was stated, will benefit other collateral industries, such
+as manufacture of soda, of ordinary sulphuric acid, bichromatic, and
+chlorate of potash, articles used in this manufacture. The lecturer
+considered that the difficulties attending the manufacture of alizarine
+were now overcome, and with sufficient capital and competent chemists
+English manufacturers must be successful.
+
+He then proceeded to explain the source from which nearly all the
+artificial coloring matters are derived, viz., gas tar; showing the
+principal products of this wonderful, complex mixture, of which one
+is anthracine. Alizarine manufacturers originally found scarcity of
+anthracine; at present the supply is in excess of the demand, and the
+price during the last 18 months has fallen from 3s. 6d. to 1s. per unit,
+and the probabilities are that the supply will increase. The quantity of
+gas tar now obtained the lecturer estimated at 500,000 tons per annum,
+and the coal carbonized for gas making, 10,000,000 tons. This quantity
+of tar suffices to produce 9,000 tons of 20 per cent. alizarine.
+
+The lecturer then reviewed, in case of an increased demand for
+anthracine, the probable new sources of obtaining increased supplies of
+coal tar: (1) The destructive distillation of petroleum; (2) coke
+ovens and blast furnaces; (8) the carbonization of coal for general
+manufacturing purposes, using the coal and gas as fuel, and giving tar,
+benzine, and ammonia as residues; and (4) distillation of coal with the
+object of obtaining the principal products, tar and benzine, and as the
+residual product, gas. This part of the lecture was important to dyers
+and printers, the lecturer showing also, in a very interesting way,
+in what manner manufacturers may very considerably economize their
+consumption of coal.
+
+The lecturer explained that while from one ton of coal there was
+obtained on an average about 17 oz. of benzine, by the new method about
+thirty times that amount can be got from the same quantity of coal.
+He also considered in great detail the different processes of the
+carbonization of coal, and of increasing the production of the different
+important residual products of gas tar, and also the best method of
+extracting the benzine. He showed samples of benzine which he produced
+from gas obtained at the Rochdale Road Gasworks, and, further,
+nitro-benzine, aniline, and coloring matters, which he had made from
+this gas benzine.
+
+The lecturer also discussed the effect of the probable increased
+production of tar, ammonia, benzine, etc., as affecting gas companies,
+and said it was anticipated they either would raise the price of gas or
+change the present system of manufacture, which he considered probable.
+The enormous increase in the production of ammonia, of which the larger
+portion at present, as sulphate of ammonia, was used as a fertilizer,
+would no doubt considerably reduce its value. It might even replace soda
+for many purposes, and thus react on our alizarine industry.
+
+He then proceeded to consider the manufacture of alizarine purpurine,
+and divided its manufacture into four stages: 1, the purification of
+crude anthracine; 2, the conversion of the purified anthracine into
+anthraquinone; and 3, the production of sulpho acid of anthraquinone and
+the conversion of this sulpho-acid into alizarine and purpurine. This
+part of the lecture comprised a detailed explanation of the various
+kinds of apparatus required, to be used which were beautifully got up,
+complete working models having been prepared for the occasion. The
+lecturer was of opinion that large consumers would be benefited if
+makers would offer for sale only three distinct coloring matters--iso
+or anthrapurpurine, and flavo-purpurine, leaving it to the dyers and
+printers to produce for themselves the intermediate shades by mixing the
+three colors; and he showed that by reason of the fastness of the shades
+produced by these coloring agents varying considerably, the blue shade
+(alizarine) being much faster then the orange shade (flavo-purpurine),
+consumers were in many instances losers by using mixtures of alizarine
+and flavo-purpurine.
+
+In the course of the lecture many interesting specimens of various
+products were produced and dilated upon, the lecturer fully describing
+the process of purifying the crude anthracine and of the conversion of
+the purified anthracine into anthraquinone.
+
+       *       *       *       *       *
+
+
+
+
+THE PRESERVATION OF MEAT BY CARBONIC ACID.
+
+
+Since 1874, when Professor Kolbe, of Leipsic, first published his
+results on the antiseptic action of salicylic acid, he has made many
+efforts to apply this acid to the preservation of meat, but he has
+invariably found that after the lapse of a few days an unpleasant flavor
+has been developed, which is not that of putridity. If putrid changes be
+noticed, it is a sign that salicylic acid is in insufficient quantity,
+for where it has turned putrid the meat is found to be no longer acid,
+but alkaline. This leads to the assumption that meat is protected from
+change by acids, even by gases of that kind; and in fact it was noticed
+that beef--from 2 to 5 kilos. being taken--when placed in an earthen
+vessel and loosely covered with a wooden cover, was long preserved from
+putridity if the bottom of the vessel contained some hydrochloric acid,
+nitric acid, or aqueous sulphurous acid. The meat, however, no longer
+had the taste of fresh meat, but of such as had long lain in ice.
+Experiments were therefore made with carbonic acid, and these proved
+highly successful. The meat was placed in a cylinder of metal plate, and
+suspended from a rod which crossed the upper part and the lower part.
+A small tube serves to admit a current of carbonic acid from a Kipp's
+apparatus. The lid, which rested in a circular trough of glycerine,
+was traversed by a similar tube in its center, and both tubes could be
+closed with India-rubber tubing and screw taps as soon as sufficient
+carbonic acid gas had traversed the apparatus. At the end of seven,
+fourteen, and twenty-one days it was found that the meat was still quite
+good, and the soup prepared from it was in every respect excellent. At
+the end of the fourth or fifth week the meat thus preserved in the gas
+was still quite free from all putridity; but the broth prepared from it
+no longer tasted so well as fresh bouillon. The experiments were not
+extended over a longer time. Carbonic acid is thus shown to be an
+excellent means of preserving beef from putridity and of causing it to
+retain its good taste for several weeks. Mutton does not preserve so
+well. In eight days it had become putrid; and veal is by no means so
+well preserved as beef. The comportment of beef in an atmosphere of
+carbonic acid, to which carbonic oxide has been added, is curious. A
+number of cylinders were filled in the usual way with such a mixture and
+opened at the end of two or three weeks; in each case the flesh had the
+smell and taste of good, pure meat, but it was not of the gray color
+which meat preserved in carbonic acid gas gradually takes, but appeared
+in the interior, as well as on the outside, of a bright flesh-red color,
+and on the surface here and there, there were white round masses of
+fungoid growth of the size of a 20-pfenning piece, which were removed
+with the slightest rubbing. The flesh lying just below these was found
+to have the same bright red color as that already described. Meat which
+had been for three weeks in such a gas mixture gave a broth which,
+in good taste and freshness, could hardly be distinguished from
+freshly-made bouillon; and the boiled meats could not be distinguished
+either in appearance or taste. The property of carbonic acid to preserve
+meat suggests a use for the large supplies of this gas evolved from the
+earth in many localities. And it is as interesting to determine in
+how far the gas could be of service as an antiseptic during surgical
+operations.
+
+       *       *       *       *       *
+
+
+
+
+REDUCTION OF OXIDIZED IRON BY CARBONIC OXIDE.
+
+
+IT is well known that when the heat is sufficient, carbonic oxide
+reduces the oxide of iron to metal with the production of carbon dioxide
+(carbonic acid). On the other hand, at lower temperatures carbon dioxide
+oxidizes metallic iron, forming carbonic oxide. J. Lowthian Bell's
+celebrated researches (see SCIENTIFIC AMERICAN, p. 199, March 31, 1883)
+established the point of equilibrium where in the presence of both
+monoxide and dioxide the reducing action of the one just counterbalances
+the oxidizing action of the other.
+
+At the suggestion of Prof. R. Akermann, of Stockholm, C.G. S�rnstrom has
+conducted a similar series of forty-five experiments, the expense being
+borne by the Jernkontor. About 1 gramme of oxide of iron was placed in a
+porcelain boat, and slid in a porcelain tube 18 millimeters (� inch) in
+diameter and 635 millimeters long (25 inches). This was exposed to the
+action of a current of mixed carbon dioxide and monoxide made by heating
+oxalic acid and concentrated sulphuric acid. It was mixed with carbon
+dioxide as required, then analyzed, and preserved in gasometers holding
+66 liters. Before using, it is passed over phosphorus and chloride of
+calcium, and through sulphuric acid. The porcelain tube and boat were
+heated to from 300� to 600� C. (572� to 1,652� Fahr.) while the gases
+were passing, and then the state of oxidation determined. It was found
+that the larger the quantity of dioxide the higher the degree of
+oxidation, and the larger the proportion of monoxide the lower the
+degree of oxidation.
+
+The details of the experiment indicate that a saving of fuel in the
+blast furnace could best be accomplished by the use of a very hot blast,
+introducing some carbon monoxide into the blast, provided, of course,
+that this gas can be made outside of the blast furnace more cheaply than
+inside of it. Nevertheless, 643 lb. of carbon must be burned to
+every 1,000 lb. of iron reduced, if carbonic oxide is exclusively
+employed.--_Stahl und Eisen_.
+
+       *       *       *       *       *
+
+
+
+
+ON THE ADULTERATION OF SOAP.
+
+By Dr. H. BRACKEBUSCH.
+
+
+The importance of soap as an indispensable article in the household has
+not restrained the adulterators from making it a favorite object of
+their operations, and at the present day soap is only very rarely what
+it should be, the alkaline salt of a fatty acid with about 15 per cent.
+of water, which may be increased in case of soft soaps to 30 per cent.
+at most. The amount of moisture is an immediate signal for adulteration.
+Of all substances that can be used to adulterate soap, water is of
+course the cheapest, and as it is also harmless, this was the first
+point where manufacturers made use of their knowledge. The percentage of
+water was raised to 26 or 28 per cent., and now nearly all the ordinary
+soaps contain that amount when they leave the factory. At first the
+retailers objected to this method, because they had to suffer the loss
+so far as it dried out and lost weight in the store.
+
+The next point was to find some substance that would prevent this rapid
+drying, and it was very soon discovered that those soaps that contained
+an excess of lye retained moisture longer. Henceforth it was only
+necessary to use lyes of extra strength so as to obtain a large yield of
+soap containing an excess of water. The results of this ingenious method
+are before us; in the shops of the soap dealers the bars of soap become
+coated with a crust of white crystals, which is nothing but soda. If a
+few drops of corrosive sublimate be dropped on these crystals, a red
+spot will at once be produced by the formation of mercuric oxide. In
+addition to the deception of the public who buy such soaps, this alkali
+destroys clothes washed with it, as the fiber of the tissues is directly
+attacked by it, while the proper action of the soap depends on its
+enveloping the particles of dirt and carrying them off.
+
+Soap is subject to another kind of adulteration called filling, or
+weighting. Soapstone and similar mineral substances are added to the
+finished soap to increase its weight. But it may be added that this
+fraudulent weighting is rare. Large establishments cannot take the risk
+of being detected in such avaricious practices, and small ones scarcely
+have the apparatus at their disposal for making a uniform mixture which
+will not arouse suspicion.
+
+Now soaps are frequently found in the market that scarcely deserve this
+name. Mineral soap, cold water soap, etc., are the names inscribed on
+the placards behind which is buried a preparation consisting for the
+greater part of water-glass. The well-known water-glass is a silicate of
+soda or potash dissolved in free or caustic soda, or potash. There was
+a time when it excited great hopes, and its introduction into the
+household for washing was dreamed of, but it was soon found that
+its caustic properties made their appearance at a relatively low
+temperature. Hence we often find the notice, "TO BE USED COLD," printed
+in bold letters on the wrappers. This product is obtained by thickening
+water-glass with stearine, oleine, or any other easily saponifiable fat.
+As it takes but very little of the substances named to make an article
+closely resembling soap, of course the product is very cheap. There does
+not seem to be any limit to the amount of water in it; at least the
+author found in one kind of mineral soap from Berlin 58 per cent. of
+water. Water-glass soaps do not dissolve readily in water, they make but
+little suds, and render the skin hard and unpliable. Admitting that they
+are suitable for many purposes, nothing can be said against their sale
+so long as they appear under names which preclude their being confounded
+with other soaps. Nevertheless, there is always this danger--that
+water-glass may come into general use in making soap, and this is to be
+deplored. Water-glass soaps are easily recognized by their insolubility
+in moderately strong alcohol, the water-glass remaining behind in a
+gelatinous form.
+
+Great deception has been practiced under such names as "almond soap,"
+etc. Fortunately the difference between various kinds of fat are not
+very great from a chemical point of view, although it is always an
+unpleasant thought that the fat from animals that have died may return
+to the house in the form of soap. A white or yellow soap having a good
+smell is not made from bad fat, and hence is more appetizing.
+
+A method formerly much in use consisted in mixing green soap with starch
+paste, a mixture that could not be detected by the naked eye, especially
+if colored with caramel. On attempting to dissolve it in ordinary
+burning alcohol, a white coagulum forms.
+
+From the foregoing it is sufficiently evident that those who buy soap
+to sell again have every reason to keep a sharp lookout on those who
+furnish them with soap.--_Polyt. Notiz._
+
+       *       *       *       *       *
+
+
+
+
+BOVINE AND HUMAN MILK: THE DIFFERENCE IN ITS ACTION AND COMPOSITION.
+
+By C. HUSSON.
+
+
+M. Meynet, in a remarkable report upon condensed milk, has raised a
+question which it is important to have solved in the interests of
+infants. This is my excuse for presenting to the French Society of
+Hygiene certain observations on this subject.
+
+Is woman's milk richer in fatty matters and sugar in proportion to the
+caseine than that of the cow? Is the affirmative, sustained by a large
+number of chemists, a mistake that ought to be corrected?
+
+Such is the question that needs to be answered.
+
+In my last work on milk, my aim was to report new experiments, and hence
+I gave only the analysis of M. Colawell. By the side of the essays of
+MM. Doy�re, Millon, Commaille, and Wurtz, I put those of Liebig, and
+quoted an interesting chapter written on this question by M. Caulier,
+in Dechambre's Encyclopedic Dictionary. These are the authorities upon
+which to base any opposition to the analyses of Boussingault, Regnault,
+Littre, and Simon, savants of no less renown.
+
+The differences are easily explained.
+
+Woman's milk is rarely to be had in sufficient abundance to make a
+complete analysis of it. In the country especially a few precious drops,
+obtained with difficulty, are carried off in a thimble to be placed
+under a microscope, where the number of fat globules are counted, and it
+is examined to see if they are not mixed with globules of colostrum.
+
+It will be necessary at the outset to know whether the analyses given
+refer to milk drawn from the breast before nursing, or at the end. In
+the former case there will be an excess of caseine, in the second an
+excess of fat present. This is the reason that in nursing infants the
+intervals should not be too long, or the child will not be able to empty
+the breast completely, and it will obtain a milk too rich in caseine,
+too poor in butter, and one that it cannot digest.
+
+This is the first proof of the importance of fatty matters for the
+alimentation of babes.
+
+Let us turn to the second.
+
+At birth, when the milk is still in a state of colostrum, the fluid
+contains a variable quantity of albumen coagulable by heat, much less
+caseine, and an excess of butter and sugar.
+
+Cow's milk, immediately after calving, contains more butter and less
+caseine than milk produced some time later, when the specific character
+of ruminants begins to appear in the calf, that is to say, when it
+commences to graze the milk coagulates in the stomach. As in other
+mammals, an excess of fat helps digestion by subdividing the caseine and
+emulsifying it. But the milk of an animal recently calved is reserved
+for its young, and it is not until the time of weaning that the lacteal
+fluid is offered for human consumption.
+
+Thus it is that the nursling of a day receives milk many months old and
+heavily loaded with caseine. This milk it cannot digest because the
+emulsifying element, the fat, is not present in it in sufficient
+quantity in proportion to the coagulable matter. We must not forget
+either that the difference in coagulation holds also with respect to
+difference in the age and in the kind of animal. Just so the rennet of a
+sucking calf has a greater power of coagulating cow's milk than that of
+a sheep, and _vice versa_.
+
+"Clinical observation," says Dr. Condereau, "shows that all young
+infants digest human milk very easily and cow's milk very imperfectly.
+When it is fed on the latter, in the excreta will be found numerous
+fragments, sometimes very bulky, of undigested caseine. In most cases
+this caseine suffers more or less decomposition in the alimentary
+canal, which gives to the feces a tainted odor recalling that of putrid
+Roquefort cheese.
+
+"The excrement vary in appearance as much as they do in odor. Frequently
+the caseous clots are not to be seen, and the stool has a clammy look
+reminding one of glazier's putty, while the color varies from dirty
+white to pale grayish yellow. That is due to the fact that the
+composition of the milk from different animals is far from being
+constant.
+
+"The proportions of albumen to those of caseine are especially varied.
+For woman's milk the proportions are as 100 to 122.72. In goat's milk
+the proportions are 100 to 173.09. In cow's milk it is as 100 to 289.20.
+
+"The conclusion is this: Caseine is not a food at all for the new born
+during a space of time, the duration of which is to be determined
+experimentally.
+
+"This substance is a harmful burden that interferes with the regular
+action of the digestive organs. It is a premature food, and the more
+abundant the more injurious.
+
+"Albumen on the contrary remains fluid in the presence of the gastric
+juice; it is separated from the other aliments by coagulation of the
+caseine. It is absorbed entire either in its natural state or in form of
+peptone."
+
+According to clinical observation, it is still the fats that give to
+milk its hygienic value, and the excess of caseine is an obstacle to its
+digestion.
+
+However, if cow's milk is not easily digested by children, experience
+proves that there are other kinds of milk, from other animals, which
+young stomachs are able to bear more easily. There are many proofs of
+this fact.
+
+M. Tarnier, speaking before the Academy of Medicine on the artificial
+nourishment of the new born, reports that the milk of cows and goats,
+pure or diluted in different ways, that of condensed milk and Biedert's
+cream, have always given disastrous results at the Maternite in Paris,
+but that the mortality of the new born was considerably reduced from the
+day when ass's milk was introduced as food.
+
+Ass's milk was given pure for six weeks or two months; then cow's milk
+diluted with one-half water until six months old, followed by pure cow's
+milk. This is the most rational course of artificial feeding.
+
+Prof. Parrot reports analogous results obtained at the nursery opened at
+the Hospice des Enfants Assistes. By the aid of ass's milk he saved a
+number of the little syphilitics.
+
+The following are the numerical results: 86 infants with hereditary
+taint of syphilis have been at the nursery. Of 6 fed exclusively on
+cow's milk, only 1 survived and the other 5 died. Forty-two were suckled
+by goats, of which 8 lived, 34 are dead, which is equal to a mortality
+of 80.9 per cent. Thirty-eight were suckled by an ass, of which 28 lived
+and 10 died; a mortality of 26.3 per cent.
+
+Certainly these figures prove eloquently enough what chemical analysis
+shows, that ass's milk, being better borne by the infant's stomach,
+ought to have a composition resembling that of woman's milk. This
+analogy is not found to consist in the quantity of fat, but in the small
+amounts of dry residue (total solids) and of caseine.
+
+Let us now examine the objections raised by M. Meynet.
+
+Food has a considerable influence upon the composition of milk; this
+fact, stated by M. Riche in his treatise on chemistry, seem to be
+accepted by all.
+
+The milk of carnivor� is excessively rich in caseine; that of herbivor�
+much less.
+
+The food of woman, who enjoys a mixed alimentation, ought to have a
+composition intermediate between these two, and consequently ought to
+contain more caseine than that of the plant eaters. This is the logical
+deduction.
+
+At first this reasoning misleads one, but numerous objections present
+themselves.
+
+The food, no doubt, has some influence upon the composition of the milk
+of animals of the same species, but every animal can secrete something
+independent of any food, just as one kind secretes musk, another
+castor, etc. Yet it would not be an anomaly if an excess of caseine
+in proportion to the other substances was a true characteristic of
+ruminants.
+
+But we admit that the milk of all mammals ought to have identically the
+same composition if their food suffered no modifications.
+
+What is the food of ruminants? Without doubt it is essentially
+vegetable, and the plants of the field constitute the element par
+excellence of their nurture. These plants contain a large excess of
+carbohydrates in proportion to the nitrogenous.
+
+But what are these other substances? What role do they play in
+digestion?
+
+They are composed in great part of fibers and cells that suffer no
+change in the animal economy, and which are not acted upon by the
+gastric juice, as proved by their occurrence in excreta. The carbon is
+found almost unchanged, so that the excrements of herbivoi�, when dried,
+form a valuable fuel. Ruminants are compelled, in order to obtain
+nourishment from the plants that they eat, to extract their juices by
+repeated pressure (as in chewing the cud); and what do these soluble
+juices contain? Some saccharine substances, a little fat, but mostly
+albumen and vegetable caseine, that is to say, the substance which
+predominates in their lacteal secretions.
+
+What, on the contrary, is the food of woman?
+
+No doubt she gains much strength from the lean, muscular flesh that she
+eats, but besides this she has butter, oil, fats of all kinds, sugar,
+starches, and alcoholic beverages, all of which are favorable to the
+production of butter in the milk. Hence, aside from her physical
+constitution, the food of woman alone explains the relative excess of
+non-nitrogeneous substances.
+
+Nitrogenous articles of food are expensive, while the other forms of
+nutriment are to be had in the form of potatoes, beans, and bread,
+products sold at a reasonable price. Yet logic demands that there shall
+be an excess of butter in proportion to caseine in the milk.
+
+The discrepancies in analyses of woman's milk are easily explained by
+the mobile and impressible character of woman.
+
+If bad treatment and bee stings are able to modify the composition of
+cow's milk, how much more ought the emotions of all sorts, which disturb
+the heart and head of woman, to change the composition of her milk?
+
+But if new analyses seem to be needed, they ought to be made. This
+question is too important to rest in suspense. The mean composition
+of human milk for the first two months after delivery ought to be
+established. In chemistry, as in mathematics, figures alone are
+convincing. But from what has been said it is logical to conclude that
+an excess of caseine in milk is unfavorable to good digestion, while
+an excess of butter is favorable to it.--_Translated from Journal
+d'Hygiene, March 1, 1883_.
+
+       *       *       *       *       *
+
+
+
+
+CEREAL FOODS IN THEIR RELATION TO HEALTH AND DISEASE.
+
+By F.R. CAMPBELL, A.B., M.D.
+
+
+The cereals are subject to many diseases which retard their development,
+rendering them unfit for food, and even poisonous. The relation of
+unwholesome foods to the diseases of the animal body are now being
+thoroughly studied, recent advances in chemistry and microscopy
+contributing valuable aid to the prosecution of such investigations.
+Some enthusiastic advocates of the germ theory of disease believe that
+many, if not all, the so-called disease germs may be transplanted into
+the human system with the food ingested. But whatever may be the real
+truth in regard to this subject, it has been positively demonstrated
+that many diseases of the human body may be produced by unwholesome
+food. The specific symptoms produced in man by the various grain
+diseases are not accurately known, consequently our remarks upon this
+subject must be of a very general character.
+
+Pappenheim divides the diseases of the cereals into two classes,
+internal and external. The internal diseases are those depending upon
+conditions of soil, climate, cultivation, etc., and may be neglected in
+our discussion, as they produce no special disease of the body, only
+impairing the nutritive value of the grain.
+
+The external diseases are of much greater importance, as they probably
+produce some of the most fatal maladies to which the human race is
+subject. These external diseases of the cereals are due to parasites,
+which may be either of an animal or vegetable nature. Among the animal
+parasites may be mentioned the _weevil, vibrio tritici_, which feeds
+upon the starch cells of the grain. Grain attacked by this parasite was
+at one time supposed to be injurious to health.
+
+In 1844 the French Commission appointed to examine grain condemned a
+large quantity imported with this parasite, but afterward reconsidered
+their decision and permitted its sale, concluding that it was deficient
+in nutritive properties, but not otherwise unwholesome. Rust is the most
+common disease of the cereals, produced by vegetable parasites. Like
+the other diseases of this class, it is most prevalent in warm, damp
+seasons.
+
+Prof. Hensboro is of the opinion that rust is but an earlier stage of
+mildew or blight, the one form of parasite being capable of development
+into the other, and the fructification characteristic of the two
+supposed genera having been evolved on one and the same individual.
+
+Blight is a term loosely applied to a number of parasitic diseases.
+In it are included mildew, cories, and even rust and smut. The fungi
+producing these diseases attack the plant and seed at various stages of
+its growth. The whole kernel is affected, and not merely the external
+coat, as is sometimes maintained. When blighted grain is sown, the
+disease recurs the following year, often making it necessary to import
+new seed before the disease can be eradicated. Various remedies have
+been used to destroy the spores of these fungi, but all are uncertain
+and some are dangerous to health. Special machinery and methods have
+been employed in the mills to separate the mildew from the grain. Some
+of these succeed in removing the fungi and discoloration from the
+surface of the grain, but have no effects upon the parts within.
+Blighted grain is soft, and has an unpleasant taste and smell, and bread
+made of it is liable to be heavy and sodden.
+
+It is undeniable that the use of blighted grain as food is exceeding
+dangerous to health. It is a well known fact that vegetable parasites
+may attack animals; the silk worm disease produced by the _Botrytis
+baniana_, being an example. It is stated that the same vegetable
+parasites which produce plant diseases, when transmitted to the animal
+body produce special affections, the form and appearance of the germs
+being altered by their environments. The same germs developed under
+different conditions of temperature and surrounding medium, assume forms
+so various that they have been supposed to belong to different species
+and even different genera. If there is any truth, then, in the germ
+theory of disease, it is not so very improbable that a fungus which
+will produce blight in grain may cause cholera or tetanoid fever in an
+animal.
+
+Hallier, the famous physiological botanist, observed in 1867 that there
+was a peculiar disease of the rice plant associated with an epidemic of
+cholera. Rice plants fertilized with the discharges of cholera patients
+were affected with blight. A concentrated infusion of the blighted grain
+would produce changes in all animal substances, blood and albumen being
+converted into thin odorless products resembling in every respect the
+material found in the kidneys of cholera patients.
+
+The most formidable of the diseases attributed to the use of diseased
+grain is cerebro-spinal meningitis, commonly known as spotted or blanoid
+fever. The disease is rare in England, but is frequently epidemic in the
+United States, in Ireland, and on the Continent. In 1873, in the State
+of Massachusetts alone, 747 persons died of it, and other epidemics even
+more fatal have lately occurred in New York and Michigan. The disease is
+a nervous fever attended with convulsions, the pathological lesion being
+congestion and inflammation of the membrane of the spinal cord and
+brain. Dr. Richardson in writing on the nature and causes of spotted
+fever concludes that it is due to the use of diseased vegetable
+substances, especially grain, and from a careful analysis of the
+statistics of this disease reported by the Michigan State Board of
+Health considers it demonstrated that "under favoring condition for its
+action diseased grain received as a food is the primary cause of the
+phenomena which characterize the disease." These views are substantiated
+by the experiments of Dr. H. Day, who found that by feeding rabbits on
+unsound grain, spasmodic affections were produced, due to inflammation
+of the membranes of the spinal cord and brain.
+
+In warm climates, pellagra or Italian leprosy is said to be produced by
+eating diseased maize, which forms the principal article of food among
+the poorer classes of the rural districts. Pellagra is epidemic in
+northern Italy and the south of France. The disease is manifested by a
+redness and discoloration of the exposed parts of the body. It is most
+active during the hot weather, the inflammation subsiding in the winter,
+leaving a pigmentation of the skin. Each year the symptoms become more
+alarming, nervous disorders finally setting in, and a large number die
+insane. The disease is most prevalent in the country. In the towns,
+where maize is supplemented by other articles of food, it does not
+exist.
+
+Ergot is a very common disease of the cereals. The fungus producing it
+was discovered in 1853, but for centuries previous its injurious effects
+upon the human body were recognized, and it was observed that ergot of
+rye was the most poisonous. Taken in large doses, ergot will produce
+nausea, vomiting, diarrhoea, headache, and weakness of the heart. In
+small repeated doses it will produce contraction of all the unstriped
+muscles, as those of the blood vessels, the womb, and intestines.
+Ergotium is the name given to the disease produced by the continued use
+of grain affected by this fungus. Aitken describes it as "a train of
+morbid symptoms produced by the slow and cumulative action of a specific
+poison peculiar to wheat and rye, which produces convulsions, gangrene
+of the extremities, and death. In countries where rye bread is much used
+ergotium is sometimes epidemic. This was a frequent calamity before
+the introduction of suitable purifiers into the mills. There are two
+varieties of the disease, the convulsive and the gangrenous. The
+convulsive form begins with tingling of the extremities, drowsiness, and
+headache, followed by pain in the joints, violent muscular contractions,
+and death. The gangrenous variety begins with coldness and weakness
+of the extremities followed by gangrene and sloughing. This form is
+somewhat more fatal than the convulsive, the mortality of those affected
+being about 90 per cent.
+
+Mouldy grain and bread have also caused poisoning. Prof. Varnell states
+that "six horses died in three days from eating mouldy oats. There was a
+large amount of matted mycelium, and this when given to other horses for
+experiment, killed them within thirty-six hours." The writer has himself
+seen seven hogs die within a few days while being fed on mouldy corn.
+Flour which has become stale may produce similar injurious effects,
+although most of the germs are destroyed in the process of baking. It is
+quite probable, however, that a poisonous substance is generated by the
+mould fungus, which cannot be destroyed in this way.--_Milling World_.
+
+       *       *       *       *       *
+
+
+
+
+MOIST AIR IN LIVING ROOMS.
+
+
+The injurious effect of dry heat in inhabited rooms is quite generally
+known, and different methods have been suggested for moistening the
+air. To test the effectiveness of these methods, J. Melikow, of St.
+Petersburg, has estimated the quantity of moisture in the air of
+different rooms by means of August's psychrometer, and also tested
+the different methods of increasing the moisture. He arrived at the
+following results, which are of decided practical value:
+
+1. When large and small open vessels filled with water are placed in the
+room, they do not increase the moisture of the air at all.
+
+2. Tubs of water of the same temperature as the room and parlor
+fountains have very little effect.
+
+3. When hot air is used, open vessels of water placed over the pipes
+have no effect at all.
+
+4. Wolpert's revolving wheel increases the moisture but slightly.
+
+5. The Russian tea machine and the steam pulverizer (atomizer) are
+effective but only for a short time.
+
+6. Wet hand towels suspended in a room are insufficient.
+
+7. Of all the methods tested, the most efficient seemed to be to hang up
+a number of wet cloths on a winch or some contrivance that permits
+of turning them, so as to hasten their giving out moisture to the
+air.--_Med. Zeitung_.
+
+       *       *       *       *       *
+
+[The following article is from the June number of the _American
+Naturalist_, edited by Prof. A. S. Packard, Jr., and Prof. E. D. Cope.
+Published by McCalla & Stavely, Philadelphia, Pa.]
+
+
+
+
+THE DEVELOPMENTAL SIGNIFICANCE OF HUMAN PHYSIOGNOMY.
+
+[Footnote: Abstract of a lecture delivered before the Franklin Institute
+of Philadelphia, Jan. 20.1881, in exposition of principles laid down in
+The Hypothesis of Evolution, New Haven, 1870, p. 31.]
+
+By E. D. COPE.
+
+
+The ability to read character in the form of the human face and figure
+is a gift possessed by comparatively few persons, although most
+people interpret, more or less correctly, the salient points of human
+expression. The transient appearances of the face reveal temporary
+phases of feeling which are common to all men; but the constant
+qualities of the mind should be expressed, if at all, in the permanent
+forms of the executive instrument of the mind, the body. To detect the
+peculiarities of the mind by external marks has been the aim of the
+physiognomist of all times; but it is only in the light of modern
+evolutionary science that much progress in this direction can be made.
+The mind, as a function of part of the body, partakes of its perfections
+and its defects, and exhibits parallel types of development. Every
+peculiarity of the body has probably some corresponding significance in
+the mind; and the causes of the former are the remoter causes of the
+latter. Hence, before a true physiognomy can be attempted, the origin
+of the features of the face and general form must be known. Not that
+a perfect physiognomy will ever be possible. A mental constitution so
+complex as that of man cannot be expected to exhibit more than its
+leading features in the body; but these include, after all, most of what
+it is important for us to be able to read, from a practical point of
+view.
+
+[Illustration: FIG. 1.--Section of skull of adult orang-outang _(Simia
+satyrus)_. FIG. 2.--Section of skull of young orang, showing relatively
+shorter jaws and more prominent cerebral region.]
+
+The present essay will consider the probable origin of the structural
+points which constitute the permanent expression. These may be divided
+into three heads, viz.:
+
+1. Those of the general form or figure.
+
+2. Those of the surface or integument of the body, with its appendages.
+
+3. Those of the forms of the head and face.
+
+[Illustration: FIG. 3.--Figure of infant at birth; _a_, front of face.
+(The eye is too far posterior in this figure.)]
+
+The principal points to be considered under each of these heads are the
+following:
+
+
+I. THE GENERAL FORM.
+
+1. The size of the head.
+
+2. The squareness or slope of the shoulders.
+
+3. The length of the arms.
+
+4. The constriction of the waist.
+
+5. The width of the hips.
+
+6. The length of the leg, principally of the thigh.
+
+7. The sizes of the hands and feet.
+
+8. The relative sizes of the muscles.
+
+[Illustration: FIG. 4.--Portrait of a girl at five years of age.]
+
+
+II. THE SURFACES.
+
+9. The structure of the hair (whether curled or not).
+
+10. The length and position of the hair.
+
+11. The size and shape of the nails.
+
+12. The smoothness of the skin.
+
+13. The color of the skin, hair, and irides.
+
+[Illustration: FIG. 5.--Portrait of the same at seventeen years, showing
+the elongation of the facial region, and less protuberance of the
+cerebral.]
+
+
+III. THE HEAD AND FACE.
+
+14. The relative size of the cerebral to the facial regions.
+
+15. The prominence of the forehead.
+
+16. The prominence of the superciliary (eyebrow) ridges.
+
+17. The prominence of the alveolar borders (jaws).
+
+18. The prominence and width of the chin.
+
+19. The relation of length to width of skull.
+
+20. The prominence of the malar (cheek) bones.
+
+21. The form of the nose.
+
+22. The relative size of the orbits and eyes.
+
+23. The size of the mouth and lips.
+
+[Illustration: FIG. 6.--Profile of a Luchatze negro woman, showing
+deficient bridge of nose and chin, and elongate facial region and
+prognathism.]
+
+The significance of these, as of the more important structural
+characters of man and the lower animals, must be considered from two
+standpoints, the paleontological and the embryological. The immediate
+paleontological history of man is unknown, but may be easily inferred
+from the characteristics displayed by his nearest relatives of the order
+Quadrumana. If we compare these animals with man, we find the following
+general differences. The numbers correspond to those of the list above
+given:
+
+I. _As to General Form_.--(3) In the apes the arms are longer; (8) the
+extensor muscles of the leg are smaller.
+
+II. _As to Surface_.--(9) The body is covered with hair which is not
+crisp or woolly; (10) the hair of the head is short; (18) the color of
+the skin, etc., is dark.
+
+III. _As to Head and Face_.--(14) The facial region of the skull is
+large as compared with the cerebral; (15) the forehead is not prominent,
+and is generally retreating; (16) the superciliary ridges are more
+prominent; (17) the edges of the jaws are more prominent; (18) the chin
+is less prominent; (20) the cheek bones are more prominent; (21) the
+nose is without bridge, and with short and flat cartilages; (22) the
+orbits and eyes are smaller (except in Nyctipithecus); (24) the mouth is
+small and the lips are thin.
+
+[Illustration: FIG. 7.--Face of another negro, showing flat nose, less
+prognathism and larger cerebral region. From Serpa Pinto.]
+
+It is evident that the possession of any one of the above
+characteristics by a man approximates him more to the monkeys, so far
+as it goes. He retains features which have been obliterated in other
+persons in the process of evolution.
+
+[Illustration: FIG.8.--Portrait of Satanta, a late chief of the Kiowas
+(from the Red river of Texas), from a photograph. The predominance of
+the facial region, and especially of the malar bones, and the absence of
+beard, are noteworthy.]
+
+In considering the physiognomy of man from an embryological standpoint,
+we must consider the peculiarities of the infant at birth. The numbers
+of the following list correspond with those already used (Fig. 3).
+
+I. _As to the General Form_.--(1) The head of the infant is relatively
+much larger than in the adult; (3) the arms are relatively longer;
+(4) there is no waist; (6) the leg, and especially the thigh, is much
+shorter.
+
+II. _As to the Surfaces_.--(10) The body is covered with fine hair, and
+that of the head is short.
+
+III. _The Head and Face_.--(14) The cerebral part of the skull greatly
+predominates over the facial; (16) the superciliary ridges are not
+developed; (17) the alveolar borders are not prominent; (20) the malar
+bones are not prominent; (21) the nose is without bridge and the
+cartilages are flat and generally short; (22) the eyes are larger.
+
+[Illustration: FIG. 9.--Australian native (from Brough Smyth), showing
+small development of muscles of legs and prognathism.]
+
+It is evident that persons who present any of the characters cited in
+the above list are more infantile or embryonic in those respects than
+are others; and that those who lack them have left them behind in
+reaching maturity.
+
+We have now two sets of characters in which men may differ from each
+other. In the one set the characters are those of monkeys, in the other
+they are those of infants. Let us see whether there be any identities in
+the two lists, i. e., whether there be any of the monkey-like characters
+which are also infantile. We find the following to be such:
+
+I. _As to General Form_.--(3) The arms are longer.
+
+II. _Surface_.--(10) The hair of the head is short, and the hair on the
+body is more distributed.
+
+III. _As to Head and Face_.--(21) The nose is without bridge and the
+cartilages are short and flat.
+
+Three characters only out of twenty-three. On the other hand, the
+following characters of monkey-like significance are the opposites of
+those included in the embryonic list: (14) The facial region of the
+skull is large as compared with the cerebral; (15) the forehead is not
+prominent; (16) the superciliary ridges are more prominent; (17) the
+edges of the jaws are more prominent. Four characters, all of the face
+and head. It is thus evident that in attaining maturity man resembles
+more and more the apes in some important parts of his facial expression.
+
+[Illustration: Esequibo Indian woman, showing the following
+peculiarities: deficient bridge of nose, prognathism, no waist, and
+(the right hand figure) deficiency of stature through short femur. From
+photographs by Endlich.]
+
+It must be noted here that the difference between the young and
+embryonic monkeys and the adults is quite the same as those just
+mentioned as distinguishing the young from the adult of man (Figs. 1 and
+2). The change, however, in the case of the monkeys is greater than
+in the case of man. That is, in the monkeys the jaws and superciliary
+ridges become still more prominent than in man. As these characters
+result from a fuller course of growth from the infant, it is evident
+that in these respects the apes are more fully developed than man.
+Man stops short in the development of the face, and is in so far more
+embryonic.[1] The prominent forehead and reduced jaws of man are
+characters of "retardation." The characters of the prominent nose with
+its elevated bridge, is a result of "acceleration," since it is a
+superaddition to the quadrumanous type from both the standpoints of
+paleontology and embryology.[2] The development of the bridge of the
+nose is no doubt directly connected with the development of the front of
+the cerebral part of the skull and ethmoid bone, which sooner or later
+carries the nasal bones with it.
+
+[Footnote 1: This fact has been well stated by C. S. Minot in the
+_Naturalist_ for 1882, p. 511.]
+
+[Footnote 2: See Cope, The Hypothesis of Evolution, New Haven, 1870, p.
+31.]
+
+[Illustration: The Venus of the Capitol (Rome). The form and face
+present the characteristic peculiarities of the female of the
+Indo-European race.]
+
+If we now examine the leading characters of the physiognomy of three
+of the principal human sub-species, the Negro, the Mongolian, and the
+Indo-European, we can readily observe that it is in the two first named
+that there is a predominance of the quadrumanous features which are
+retarded in man; and that the embryonic characters which predominate are
+those in which man is accelerated. In race description the prominence
+of the edges of the jaws is called prognathism, and its absence
+orthognathism. The significance of the two lower race characters as
+compared with those of the Indo-European is as follows:
+
+_Negro_.--Hair crisp (a special character), short (quadrum. accel.);
+prognathous (quadrum. accel.); nose flat, without bridge (quadrum.
+retard)[1]; malar bones prominent (quadrum. accel.); beard short
+(quadrum. retard.); arms longer (quadrum. accel.); extensor muscles of
+legs small (quadrum. retard.).
+
+[Footnote 1: In the Bochimans, the flat nasal bones are co-ossified with
+the adjacent elements as in the apes (Thuli�).]
+
+_Mongolian_.--Hair straight, long (accel.); jaws prognathous (quadrum.
+accel.); nose flat or prominent with or without bridge; malar bones
+prominent (quadrum. accel.); beard none (embryonic); arms shorter
+(retard.); extensor muscles of leg smaller (quad. retard.).
+
+_Indo-European_.--Hair long (accel.); jaws orthognathous (embryonic
+retard.); nose (generally) prominent with bridge (accel.); malar bones
+reduced (retard.); beard long (accel.); arms shorter (retard.); extensor
+muscles of the leg large (accel.).
+
+The Indo-European race is then the highest by virtue of the acceleration
+of growth in the development of the muscles by which the body is
+maintained in the erect position (extensors of the leg), and in those
+important elements of beauty, a well-developed nose and beard. It is
+also superior in these points in which it is more embryonic than the
+other races, viz., the want of prominence of the jaws and cheekbones,
+since these are associated with a greater predominance of the cerebral
+part of the skull, increased size of cerebral hemispheres, and greater
+intellectual power.
+
+A comparison between the two sexes of the Indo-Europeans expresses their
+physical and mental relations in a definite way. I select the sexes of
+the most civilized races, since it is in these, according to Broca and
+Topinard, that the sex characters are most pronounced. They may be
+contrasted as follows. The numbers are those of the list already used.
+I first consider those which are used in the tables of embryonic,
+quadrumanous, and race characters:
+
+           MALE.                       FEMALE.
+               I. _The General Form_.
+   2. Shoulders square.          Shoulders slope.
+   4. Waist less constricted.    Waist more constricted.
+   5. Hips narrower.             Hips wider.
+   6. Legs longer.               Legs shorter (very frequently).
+   8. Muscles larger.            Muscles smaller.
+
+               II. _The Integuments, etc_.
+  10. More hair on body, that    Less hair on body, that of head
+      of head shorter; beard.    longer; no beard.
+  12. Skin rougher (generally).  Skin smoother.
+
+               III. _The Head and Face_.
+  16. Superciliary ridges more   Superciliary ridges low.
+      prominent.
+  22. Eyes often smaller.        Eyes often larger.
+
+[Illustration: The Wrestler; original in the Vatican. This figure
+displays the characters of the male Indo-European, except the beard.]
+
+The characters in which the male is the most like the infant are two,
+viz., the narrow hips and short hair. Those in which the female is most
+embryonic are five, viz., the shorter legs, smaller muscles, absence of
+beard, low superciliary ridges, and frequently larger eyes. To these may
+be added two others not mentioned in the above lists; these are 1, the
+high pitched voice, which never falls an octave, as does that of the
+male; and 2, the structure of the generative organs, which in all
+mammalia more nearly resemble the embryo and the lower vertebrata in the
+female than in the male. Nevertheless, as Bischoff has pointed out, one
+of the most important distinctions between man and the apes is to be
+found in the external reproductive organs of the female.
+
+From the preceding rapid sketch the reader will be able to explain the
+meaning of most of the peculiarities of face and form which he will
+meet with. Many persons possess at least one quadrumanous or embryonic
+character. The strongly convex upper lip frequently seen among the lower
+classes of the Irish is a modified quadrumanous character. Many people,
+especially those of the Sclavic races, have more or less embryonic
+noses. A retreating chin is a marked monkey character. Shortness
+of stature is mostly due to shortness of the femur, or thigh; the
+inequalities of people sitting are much less than those of people
+standing. A short femur is embryonic; so is a very large head. The faces
+of some people are always partially embryonic, in having a short face
+and light lower jaw. Such faces are still more embryonic when the
+forehead and eyes are protuberant. Retardation of this kind is
+frequently seen in children, and less frequently in women. The length of
+the arms would appear to have grown less in comparatively recent times.
+Thus the humerus in most of the Greek statues, including the Apollo
+Belvidere, is longer than those of modern Europeans, according to a
+writer in the Bulletin de la Soci�t� d'Anthropologie of Paris, and
+resembles more nearly that of the modern Nubians than any other people.
+This is a quadrumanous approximation. The miserably developed calves of
+many of the savages of Australia, Africa, and America are well known.
+The fine, swelling gastroenemius and soleus muscles characterize the
+highest races, and are most remote from the slender shanks of the
+monkeys. The gluteus muscles developed in the lower races as well as
+in the higher distinguish them well from the monkeys with their flat
+posterior outline.
+
+It must be borne in mind that the quadrumanous indications are found in
+the lower classes of the most developed races. The status of a race or
+family is determined by the percentage of its individuals who do and do
+not present the features in question. Some embryonic characters may
+also appear in individuals of any race, as a consequence of special
+circumstances. Such are, however, as important to the physiognomist as
+the more normal variations.
+
+Some of these features have a purely physical significance, but the
+majority of them are, as already remarked, intimately connected with
+the development of the mind, either as a cause or as a necessary
+coincidence. I will examine these relations in a future article.
+
+       *       *       *       *       *
+
+
+
+
+THE PRODUCTION OF FIRE.
+
+
+In 1867 the Abb� Bourgeois found at Thenay, near Pont-levoy
+(Loir-et-Cher), in a marly bank belonging to the most ancient part of
+the middle Tertiary formation, fragments of silex which bore traces of
+the action of fire. This fire had not been lighted by accidental causes,
+for, says Mr. DeMortillet (_Le Prehistorique_, p. 90), the causes of
+instantaneous conflagrations can be only volcanic fires, fermentations,
+and lightning. "Now, in the entire region there is no trace of volcanic
+action, and neither are there any traces of turfy or vegetable deposits
+capable of giving rise to spontaneous inflammations--phenomena that
+are always very rare and very exceptional, as are also conflagrations
+started by lightning. Well, in the Thenay marls, the pieces of silex
+that had undergone the action of fire were found disseminated at
+different levels, and this could not have been a simple accident, but
+was evidently something that had been done intentionally. There existed,
+then, during the Aquitanian epoch, a being who was acquainted with fire
+and knew how to produce it."
+
+Mr. De Mortillet supposes that this being was an animal intermediate
+between man and the monkey, which he calls the _anthropopithecus_.
+
+This precursor of man made use of fire for splitting silex and
+manufacturing from it instruments whose cutting edge he perfected by
+means of a series of retouchings produced by slight percussions upon one
+of the surfaces only.
+
+I shall not enter in this place upon a discussion as to the existence
+of an anthropopithecus or Tertiary man, whom every one does not as yet
+accept, but will confine myself to giving the facts as to the use of
+fire in the remotest epochs, incontestable proofs of which exist from
+the time at which Quaternary man made his appearance. How this was
+discovered is indicated, according to Aryan tradition, by the Vedic
+hymns. The ancestors of the Aryans, these tell us, had seen the lighting
+dart forth from the shock of black clouds. They had seen the spark that
+fired the forests issue from the friction of dry branches agitated by
+the storm. They took a branch of soft wood, _arani_, and passing a thong
+around a branch of hard wood, _pramontha_, they caused it to revolve
+rapidly in a cavity in the _arani_, and thus evoked the god _Agni_, whom
+they nourished with libations of clarified butter, _soma_.
+
+The _Pramontha_, became the _Prometheus_ of the Greeks, the Titan who
+stole the fire, and it is from the Sanscrit _Agni_ that is derived the
+Latin _Ignis_, "fire," and the Greek [Greek: Agnos], "pure," and the
+_Agnus Dei_ of the Christians, who purifies all.
+
+Orientalists generally agree that the sign which is seen under the forms
+[inline illustration], [inline illustration], or [inline illustration],
+on a large number of objects of Aryan origin is a sort of sacred
+hieroglyphic, representing the _arani_ or _svastika_, formed of two
+pieces of soft wood fixed by four pins in such a way as not to revolve
+under the pressure of the Pramontha.
+
+This process of producing fire is also found among a host of more or
+less savage peoples, and especially in India, where, during the last
+month of the great feast of sacrifices, the sacred fire must always be
+kindled three hundred and sixty times a day with nine different kinds of
+wood that are prescribed by the rite.
+
+Fig. 1 shows the arrangement in use among the Eskimos, and Fig. 2 that
+employed by the Indians of North America.
+
+In 1828 there still existed at Essen, in Hanover, an analogous apparatus
+designed to produce an alarm fire. This was a large, horizontal, round
+wooden bar whose extremities pivoted in two apertures formed in vertical
+posts, and which was provided with a cord that was wound around it
+several times. Several persons, by pulling on the ends of this cord,
+caused the bar to revolve alternately in one direction and the other,
+and the heat developed by the friction lighted some tow that had
+previously been inserted in one of the apertures in the post.
+
+[Illustration: FIG. 1.--ESKIMO PRODUCING FIRE BY FRICTION.]
+
+It is certain that the alternate motion must have been produced directly
+by hand before being effected by cords. This simpler process is still in
+use in Tasmania, Australia, Polynesia, Kamtschatka, Thibet, Mexico, and
+among the Guanches of the Canary Isles, who are supposed to be the last
+representatives of the inhabitants of Atlantis, which sank under the
+waters at the close of the Quaternary epoch.
+
+Chamisso, who accompanied Kotzebue in his voyage, describes it as
+follows: "In the Caroline Islands, they rest a vertical piece of
+roundish wood, terminating in a point, and about a foot and a half in
+length and one inch in diameter, upon a second one fixed in the ground,
+and then give it a rotary motion by acting with the palms of the
+hands. This motion, which is at first slow and measured, is at length
+accelerated, while at the same time the pressure becomes stronger,
+whereupon the dust from the wood which has formed by friction and
+accumulated around the point of the movable piece begins to carbonize.
+This dust, which, after a fashion, constitutes a match, soon bursts into
+flame. The women of Eap are wonderfully dexterous in their use of this
+process."
+
+[Illustration: FIG. 2.--PROCESS EMPLOYED IN NORTH AMERICA FOR PRODUCING
+FIRE.]
+
+Fig. 3 shows another manner of obtaining fire by rotation which is
+employed by the Guachos, a half savage, pastoral people who inhabit the
+pampas of South America. Longitudinal friction must have preceded that
+obtained by rotation. It is still in use in most of the islands of
+Oceanica (Fig. 4), and especially in Tahiti and in the Sandwich Islands.
+
+In these latter, says again Chamisso, upon the fixed piece of wood they
+place another piece of the same kind, about the length of the palm, and
+press it obliquely at an angle of about 30 degrees. The extremity that
+touches the fixed piece is blunt, and the other extremity is held with
+the two hands, the two thumbs downward, in order to allow of a surer
+pressure. The piece is given an alternating motion, and in such a way
+that it shall always remain in the same plane inclined at an angle of 30
+degrees, and form, through friction, a small groove from six to eight
+centimeters in length. When the dust thus produced begins to carbonize,
+the pressure and velocity are increased. Wood of a homogeneous texture,
+neither too hard nor too soft, is the best for the purpose.
+
+The Malays operate as follows: A dry bamboo rod, about a foot in length,
+is split longitudinally, and the pith which lines the inside is scraped
+off, pressed, and made into a small ball which is afterward placed in
+the center of the cavity of one of the halves of the tube. This latter
+half is then fixed to the ground in such a way that the cavity and ball
+face downward. The operator next fashions the other half of the tube
+into a straight cutting instrument like a knife-blade, which he applies
+transversely to the fixed half and gives an alternating motion so as to
+produce a sort of sawing. After a certain length of time, a groove, and
+finally a hole, is produced. The cutting edge of the instrument is then
+so hot that it sets on fire the ball with which it has come in contact.
+
+[Illustration: FIG. 3.--GAUCHO OBTAINING FIRE.]
+
+Some peoples, the Fuegians especially, procure fire by striking together
+two flints. In the Aleutian Islands these latter, having been previously
+covered with sulphur, are struck against each other over a small saucer
+of dry moss dusted with sulphur. The Eskimos employ for this purpose
+pieces of quartz and iron pyrites.
+
+In the Sandwich Islands recourse is had to a process that necessitates
+much skill. There is arranged in a large dry leaf, rolled into the
+shape of a funnel, a certain number of flints along with some easily
+combustible twigs. On attaching the leaf to the end of a rod, and
+revolving the latter rapidly, it is said that fire is produced.
+
+Processes that are based upon the clashing of two flint stones must be
+much more inconvenient of application than we would be led to suppose.
+We are, in fact, accustomed to see the flint and steel used, but here
+the spark is a bit of iron raised to red heat through a mechanical
+action that has violently detached it from the mass under the form of
+a small sliver. In the case of two flint stones, the light that
+is perceived is of an entirely different nature, for it is a
+phosphorescence which is produced, even by a very slight friction, not
+only between two pieces of silex, but also between two pieces of quartz,
+porcelain, or sugar; and that the heat developed is but slight is proved
+by the fact that the phenomenon may occur under water. Of course,
+fragments of stones may be raised to a red heat through percussion; but
+this does not often occur, so for this reason the Fuegians keep up with
+the greatest care the fires that they have lighted, and it is this very
+peculiarity that has given their country a characteristic aspect and
+caused it to be named Terra del Fuego (land of fire). When they change
+their residence they always carry with them a few lighted embers which
+rest in their canoes upon a bed of pebbles or ashes.
+
+The same thing occurs, moreover, among the Australians and Tasmanians,
+who employ, as we have just seen, the rotary process. There are women
+among these peoples whose special mission it is to carry day and night
+lighted torches or cones made of a substance that burns slowly like
+punk. When, through accident, the fire happens to get extinguished in a
+tribe, these people often prefer to undertake a long voyage in order to
+obtain another light from a neighboring tribe rather than have recourse
+to a direct production of it.
+
+We can understand from what is still taking place in these distant
+countries why the worship of fire should have existed among our
+ancestors, and why sacerdotal associations, such as the Brahmins of
+India, the Guebers of Persia, the Vestals of Rome, the priests of Baal
+in Chaldea and Phenicia should have been specially instituted for
+producing and preserving it.
+
+Plutarch narrates (Numa, chap. ii.) that when the sacred fire happened
+to go out, there was employed for relighting it a brass mirror that
+had the form of a cone generated by the hypothenuse of an isosceles
+rectangular triangle revolving around one of the sides of the right
+angle.
+
+[Illustration: FIG. 4.--NATIVE OF OCEANICA OBTAINING FIRE BY FRICTION.]
+
+In a poem upon stones attributed to Orpheus, it is said that the sacred
+fire was also lighted by a bit of crystal which concentrated the rays of
+the sun upon the material to be inflamed. This process must have been
+the one that was most usually employed before fire became common. In
+fact, a plano-convex crystal lens has been found among the ruins of
+Nineveh. Aristophanes, in the _Clouds_, puts on the stage a coarse
+personage named Strepsiades, who points out to Socrates how he must
+manage so as not to pay his debts:
+
+"Streps.--Hast thou seen among druggists that beautiful transparent
+stone that they employ for lighting a fire?
+
+"Socr.--Thou meanest glass.
+
+"Streps.--Yes.
+
+"Socr.--Well! what wouldst thou do with it?
+
+"Streps.--When the registrar shall have made out his summons against me,
+I will take the glass, and, placing myself thus in the sun, will cause
+his writing to melt."
+
+As well known, writing was then traced on waxen tablets. Servius (in
+_�n_., xii., 200) affirms that men of ancient times, instead of lighting
+fire upon the altar themselves, in their sacrifices, caused it to
+descend from heaven. He adds, according to Pliny, Titus Livius, and
+several old Latin historians, that Numa, who was initiated into all the
+wisdom of Etruria, practiced this art with success, but that Tullius
+Hostilius, having desired to repeat the evocation, guided only by the
+books of Numa, did not accomplish all the formalities prescribed by the
+rite and was struck dead by lightning.
+
+Is it not curious that twenty-four centuries afterward, in 1753,
+the physicist Reichman was killed by lightning in trying to repeat
+Franklin's experiment? This coincidence, however, is not the only one.
+Pliny (ii., 53) recounts that lightning was evoked by King Porsenna at
+the time when a monster named _Volta_, who was ravaging the country, was
+directing himself toward the capital, Volsinies.
+
+If we return to the Vedas, who had the habit of personifying all
+phenomena, we shall find that the fire Agni was the son of the carpenter
+who had manufactured the instrument by which it was produced, and of
+_Maya_ (magic). He took the name of Akta (anointed, [Greek: christos])
+when, nourished by libations of butter, he had acquired his full
+development. The Persians attributed likewise to Zoroaster the power
+of causing fire to descend from heaven through magic. Saint Clement of
+Alexandria (_Recog_., lib. iv.) and Gregory of Tours (_Hist. de Fr._,
+i., 5) speak of this. However this may be, the marvelous art was lost
+at an early date, for it was at such a date that priests began to have
+recourse to tricks that were more or less ingenious for lighting their
+sacred fireplaces in an apparently supernatural manner.--_A. De Rochas,
+in La Nature_.
+
+       *       *       *       *       *
+
+
+
+
+ST. BLAISE, THE WINNER OF THE DERBY.
+
+
+St. Blaise, the property of Sir Frederick Johnstone, was bred by Lord
+Alington, and is by Hermit from Fusee. This is an unexceptionable
+pedigree, for Hermit is now as successful and fashionable a sire as was
+even Stockwell in his palmiest days, while Fusee was far more than an
+average performer on the turf, and won several Queen's Plates and other
+races over a distance of ground. St. Blaise is by no means a big colt,
+standing considerably under sixteen hands. His color is about his worst
+point, as he is a light, washy chestnut, with a bald face and three
+white heels. He has a good head and neck, and very powerful back and
+muscular quarters, added to which his legs and feet are well shaped and
+thoroughly sound. His first appearance was made in the Twenty-fourth
+Stockbridge Biennial at the Bibury Club Meeting, when he won easily
+enough; but there were only four moderate animals behind him. A
+walk-over for the Troy Stakes followed, and then Macheath beat him
+easily enough for the Hurstbourne Stakes, though he finished in front
+of Adriana and Tyndrum. For the Molecomb Stakes at Goodwood, he ran a
+dead-heat with Elzevir, to whom he was giving 7 lb.; and Bonny Jean,
+in receipt of 10 lb., was unplaced. A 7 lb. penalty seemed to put him
+completely out of the Dewhurst Plate; but he must then have been out
+of form, as, on the following day, it took him all his time to defeat
+Pebble by a neck in the Troy Stakes. This season he has only run twice.
+His fourth in the Two Thousand was by no means a bad performance,
+considering that he was palpably backward; and his victory of last week
+is too recent to need further allusion. Porter, his trainer, can boast
+of several other successes in the great race at Epsom; but Charles Wood
+had never previously ridden a Derby winner. St. Blaise was unfortunately
+omitted from the entries for the St. Leger, but has several valuable
+engagements at Ascot next week, and appears to have the Grand Prize of
+Paris, on Sunday, at his mercy.--_Illustrated London News_.
+
+[Illustration: ST. BLAISE, THE WINNER OF THE DERBY.]
+
+       *       *       *       *       *
+
+[NATURE.]
+
+
+
+
+SCIENTIFIC PROGRESS IN CHINA AND JAPAN.
+
+
+Various steps in the progress of China, and Japan in the adoption of
+Western science and educational methods have from time to time been
+noticed in these columns. To the popular mind the names of the two
+countries are synonymous with rigid, unreasoning conservatism and with
+rapid change, respectively. The grave, dignified Chinese, who maintains
+his own dress and habits even when isolated among strangers, and whose
+motto appears to be, _Stare super mas antiquas_, is popularly believed
+to be animated by a sullen, obstinate hostility toward any introduction
+from the West, however plain its value may be; while his gayer and more
+mercurial neighbor, the Japanese, is regarded as the true child of the
+old age of the West, following assiduously in its parent's footsteps,
+and pursuing obediently the path marked out by European experience.
+There is considerable misconception in this, as indeed there is at
+all times in the English popular mind with regard to strange peoples.
+Broadly speaking, it is no doubt correct to say that, Japan has adopted
+Western inventions and scientific appliances with avidity; that she
+has shown a desire for change which is abnormal, and a disposition to
+destroy her charts and sail away into unsurveyed seas, while China
+remains pretty much where she always was. She is now, with some
+exceptions, what she was twenty, two hundred, perhaps two thousand years
+ago, while a new Japan has been created in fifteen years. All this, we
+say, is true, but it is not the whole truth. China also has had her
+changes; not indeed so marked or rapid, not so much in the nature of a
+_volte-face_ on all her past as those of her neighbor.
+
+The radical difference between the two countries in this respect we take
+to be this: that while Japan loves change for the sake of change, China
+dislikes it, and will only adopt it when it is clearly demonstrated to
+her that change is absolutely necessary. To the Japanese change appears
+to be a delightful excitement, to the Chinese a distasteful necessity;
+to the former whatever is must be wrong, to the latter whatever is is
+right. As a consequence of this difference between the two peoples, when
+China once makes a step forward it is generally after much deliberation,
+and is never retraced. Japan is constantly undertaking new schemes
+with little care or thought for the morrow, but with the applause of
+injudicious foreign friends. In a short time she discovers that she has
+underrated the expense or exaggerated the results, and her projects
+are straightway abandoned as rapidly and thoughtlessly as they were
+commenced. Swift suggested as a suitable subject for a philosophical
+writer a history of human projects which were never carried out; the
+historian of modern Japan finds these at every turn. Where, for example,
+are the results of the great surveys, trigonometrical and others, which
+were commenced in Yezo and the main island about ten years ago? A large,
+expensive, but highly competent foreign staff was engaged, and worked
+for a few years; but suddenly the whole survey department was swept
+away, and the valuable instruments are, or were recently, lying rusting
+in a warehouse in Tokio. The same story may be told of scores of other
+scientific or educational undertakings in Japan. An able and careful
+writer, Col. H.S. Palmer, R.E., who has recently, with a friendly and
+sympathetic eye, examined the whole field of recent Japanese progress,
+in the _British_ _Quarterly Review_ is forced to acknowledge this. "Once
+having recognized," says this officer, "that progress is essential to
+welfare, and having resolved, first among the nations of the East, to
+throw off past traditions and mould their civilization after that of
+Western countries, it was not in the nature of the lively and impulsive
+Japanese to advance along the path of reform with the calmness and
+circumspection that might have been possible to a people of less active
+temperament. Without doubt many foreign institutions were at first
+adopted rather too hastily, and the passing difficulties which now beset
+Japan are to some extent the inevitable result." It would be blindness
+to deny that the net result of the Japanese efforts is progress of a
+very remarkable kind, but it is a progress which in many respects lacks
+the firm and abiding characteristics of Chinese movements.
+
+The proverb, _Chi va piano va sano_, which was recommended ten years ago
+to Japanese attention by an eminent English official, and apparently
+disregarded by them, has been adopted by their continental neighbors.
+To the blandishments of pushing diplomatists or acute promoters, the
+Chinese are deaf. However we may felicitate ourselves on our inventions,
+scientific appliances, "the railway and the steamship and the thoughts
+that shake mankind," our progress, the newspapers, the penny post, and
+what not, China will not adopt them simply because _we_ have found
+their value and are proud of them. But if, within the range of her own
+experience, she finds the advantage of these things, she will employ
+them with a rapidity and decision surpassing those of the Japanese. A
+conspicuous instance of this will be found in her recent action with
+respect to telegraphs. For years the Chinese steadily refused to have
+anything to do with them; the small land line which connected the
+foreign community of Shanghai with the outer world, was maintained
+against the violent protests of the local authorities, and the cable
+companies experienced some difficulty in getting permission to land
+their cables. But during the winter of 1870-80, when war with Russia
+was threatened, the value of telegraphs was demonstrated to the Peking
+government. The Peiho at Tientsin was closed by ice against steamers,
+and news could only be carried to the capital by overland couriers from
+Shanghai. Before a year elapsed a land line of telegraph was being
+constructed between this port and Tientsin; in a few months the line
+was in working order, and the Chinese metropolis is now in telegraphic
+communication with every capital in Europe.
+
+This conservatism, respect for antiquity, conceit, prejudice, call it
+what we will, has something in it that extorts our respect. Let us
+imagine a dignified and cultivated Chinese official conversing with
+a pushing Manchester or Birmingham manufacturer, who descants on the
+benefits of our modern inventions. He would probably commune with
+himself in this wise, whatever reply Oriental politeness would dictate
+to his interviewer: "China has got on very well for some tens of
+centuries without the curious things of which this foreigner speaks; she
+has produced in this time statesmen, poets, philosophers, soldiers; her
+people appear to have had their share of affliction, but not more than
+those of Europe; why should we now turn round at the bidding of a
+handful of strangers who know little of us or our country, and make
+violent changes in our life and habits? A railway in a province will
+throw thousands of coolies and boatmen out of employment and bring
+on them misery and starvation. This foreigner says that railways and
+telegraphs have been found beneficial in his country; good, let his
+countrymen have them if they please, but let us rest as we are for the
+present. Moreover, past events have not given us such faith in Europeans
+that we should take all they say for wisdom and justice." A day will
+undoubtedly come when China also will have her great mechanical and
+scientific enterprises; but what we contend for here is that nothing
+we can say or do will bring that time an hour nearer. European public
+opinion is to China a dead letter; she refuses to plead before that
+tribunal. Each step of her advance along our path must be the result of
+her own reflection and experience; and our wisest policy would be to
+leave her to herself to advance on it as she deems best. SINENSIS.
+
+       *       *       *       *       *
+
+
+
+
+THE DIAMOND FIELDS OF SOUTH AFRICA.
+
+
+At a recent meeting of the Institution of Civil Engineers, the paper
+read was "On the Diamond Fields and Mines of South Africa," by Mr. James
+N. Paxman, Asoc. M. Inst. C.E.
+
+The author commenced by stating that Kimberley was situated in
+Griqualand West, above 700 miles northeast from Table Bay, and 450 miles
+inland from Port Elizabeth and Natal on the east coast. Lines of railway
+were in course of construction from Table Bay and Port Elizabeth to
+Kimberley, and were about half completed. In Griqualand there were
+several diamond mines, the principal of which were Kimberley, De Beer's,
+Du Toit's Pan, and Bultfontein.
+
+In the Orange Free States there were also two mines, viz., Jagersfontein
+and Koffeyfontein, the first of which produced fine white stones. The
+mines were all divided into claims, the greatest number of which were to
+be found in the Du Toit's Pan mine. Bultfontein came next.
+
+The deepest and most regularly worked was the Kimberley mine. The next
+deepest was De Beer's, which, however, was very unevenly worked. Then
+followed Du Toit's Pan and Bultfontein. The Du Toit's Pan mine ranked
+next in importance to Kimberley mine. Diamonds were first discovered in
+1867 by Mr. O'Reilley, a trader and hunter, who visited a colonist named
+van Niekirk, residing in Griqua. The first diamond, on being sent to the
+authorities, was valued at 500_l_. Considerable excitement was caused
+throughout the colony, and the natives commenced to look for diamonds,
+and many were found, among which was one of eighty-three and a half
+carats, valued at 15,000_l_. In 1868 many enterprising colonists made
+their way up the Vaal River, and were successful in finding a good
+number of diamonds. The center of the river diggings on the Transvaal
+side was Klipdrift, and on the opposite side Pniel. In all there were
+fourteen river diggings. Du Toit's Pan and Bultfontein mines were
+discovered in 1870 at a distance of twenty-four miles from the river
+diggings. The diggers took possession of these places. Licenses were
+granted giving the first diggers a right to work. In 1871 De Beer's
+and Kimberley mines were discovered, and in 1872, Mr. Spalding's great
+diamond of 282� carats was found at the river diggings.
+
+The mines were of irregular shape, and were surrounded by reef. The top
+reef was a loose shale, and had given great trouble from the frequent
+slips. Below this were strata of trachitic breccia and augite; the
+formation was then seamy to an unknown depth.
+
+Within the reef, the surface soil was red, and of a sandy nature. The
+next stratum was of a loose, yellow, gravelly lime, and the third blue,
+of a hard, slaty nature. This last was the real diamantiferous soil.
+Large stones had been found in the "yellow," but the working of this
+generally did not pay. Kimberley mine, however, had paid very well all
+through. The method of working in deep ground was determined by roadways
+running north and south. The soil was hauled up to these roadways,
+and taken to the sorting tables. The roadways decaying shortly after
+exposure to the atmosphere, a system of hand windlass was adopted, which
+worked very well for a time until horsewhims were adopted in 1873.
+The depths of the mines increasing, horsewhims had to give way to
+steam-engines in 1876.
+
+The first diggers treated on an average ten loads per day each party. At
+the present time the least taken out by any engine, when fully employed,
+was 250 loads per day. The cost of working, with present appliances, the
+first one hundred feet in depth, was 3s. 6d. per load; the second one
+hundred feet (mostly blue) 5s.; the third one hundred feet 8s.; and
+the fourth one hundred feet 11s. Through scarcity of water a system
+of dry-sorting had to be resorted to for several years; but it was
+superseded by the introduction of washing machinery, which was now
+generally employed.
+
+At the commencement, through inexperience, many serious mistakes were
+made. When the first diggers reached the bottom of the red sand, they
+thought no diamonds would be found in the next stratum. When, however,
+diamonds were found in the second stratum, the diggers had again to
+remove the debris, and so also when the "blue" was reached. Some of the
+claims in the Du Toit's Pan and Bultfontein mines were irregular in
+shape. The other mines, however, had been properly and regularly laid
+out. One or two shafts had been connected with the mines by underground
+galleries. These galleries were convenient in the case of falls of reef.
+Labor, at first, was cheap; but from 20s. per month, wages rose to 30s.
+per week, and food. The yellow soil offered no difficulty in working,
+being loose and broken, but the blue soil required blasting.
+
+Several methods were adopted for extracting the soil and carrying it
+from the mine before steam was introduced. The cost of wood for heating
+purposes was a serious item, but good coal had now been found at 160
+miles from Kimberley, costing 13l. per ton; another serious item of
+expense was the transport over natural roads only, costing from 18_l_.
+to 30_l_. per ton.
+
+The machinery designed by the author for this industry was described.
+A sixteen horse-power direct-acting winding engine was introduced for
+hauling up loads at the rate of about one thousand feet per minute, and
+a twenty-five horse-power geared engine, for hauling up heavier loads at
+the rate of from six hundred feet to seven hundred feet per minute.
+
+Water was dear, and water-heaters were fitted to each engine, by which
+thirty-three per cent. of the water was again used, thus saving one
+third. The boilers were of the locomotive type, mostly of steel, to save
+weight, and thus reduce the cost of transit. The fire-boxes were also
+made of steel of very soft and ductile quality. A semi-portable engine
+was made for driving the wash mill. The engine was so arranged that it
+might be removed from the boiler and placed separately. The boiler was
+made to work at a pressure of 140 pounds per square inch. Automatic cut
+off gear was fixed to each engine, and the governors were provided with
+a spiral spring for adjusting the speed. A screen, or cylinder wash mill
+and elevator, were used for dealing with the diamantiferous soil, and
+were described. Standing wires were fixed at the back of the machinery,
+and passed over a frame fixed at the top of the mine, the end of the
+mine being secured to strong wooden posts. After the blue soil had been
+blasted and collected into trucks, it was placed in tubs, which ascended
+the standing wires. It was then emptied into the depositing box. The
+yellow soil might be put into the wash mill direct, also that portion of
+the blue which had passed through the screen fixed over the depositing
+box. The remainder of the blue, which was spread out to a thickness of
+four inches or six inches on the depositing ground, some distance from
+the mine to dry, was delivered into the upper part of the screen. The
+return water from the elevator, with a portion of fresh water, was also
+discharged at this point, and operations were thus greatly facilitated,
+the soil becoming thoroughly saturated, and passing more easily down the
+shoots. The large pieces which would not drop through the meshes of the
+screen were discharged into trucks at the lower end and carried away.
+The smaller pieces with water, in the form of sludge, fell through into
+a shoot, and thus were conveyed into the wash mill pan, and there kept
+in constant rotating motion by agitators. The diamonds and other pieces
+of high specific gravity sank to the deepest part of the pan, and the
+remainder of the sludge was forced over the inner ledge to the elevator.
+The sludge was then lifted and thrown upon an inclined screen and down
+the shoot over the side of the bank. The residue left in the pan at the
+end of the day's work was passed through a pulsator, in which, by the
+force of water, the mud and lighter particles were carried away, leaving
+behind the diamonds, agates, garnets, and other heavy stones. It was the
+practice occasionally to put a few inferior stones in the soil, to test
+the efficiency of the machinery.
+
+In 1881 the author paid a visit to Kimberley, and found the industry a
+large one. The Post Office return showed the value of diamonds passed
+through the office in one year to be 3,685,000_l_. Illicit diamond
+traffic had hitherto been a source of great trouble at the fields. It
+was a question whether this industry would ever cease; in any case there
+was no doubt but that it would last for over a century. It was believed
+that the main bed of diamonds had not yet been reached, and that the
+mines in operation were merely shafts leading to it. Now that the water
+works were finished, with a bountiful supply of water, coupled with
+the great boon of railways to the Fields, and the advantage of a law
+recently passed for the prevention of illicit buying, a great and
+prosperous future was in store for the Diamond Fields.
+
+       *       *       *       *       *
+
+
+
+
+SPONGES AT THE BAHAMAS.
+
+
+Within the last few decades the sponge industry of the Bahama Islands
+has increased at such a rate that to-day it is the second in importance
+on the island. Although the product is not of such excellent quality
+as that from the Mediterranean, it sells well and is in demand both in
+England and in America.
+
+For sponge fishing little boats of ten tons burden are employed and
+manned by from six to twelve men. The sponges that are washed upon the
+rocks and reefs are taken with iron rakes fastened to long poles, or
+are brought to the surface by divers and spread out on the deck of the
+vessel. This kills their soft, slimy organisms, which are black as tar.
+The sponges are then repeatedly beaten with sticks to remove this black
+slime, and afterward well washed.
+
+The sponges are then sorted and softened for several hours in lime
+water, dried in the sun, and bleached. They are finally pressed by
+machinery into 100 lb. balls and then packed for shipping.
+
+A rich and very extensive "sponge field" was recently discovered near
+Eleuthera, but as the water there has a considerable depth, five or six
+fathoms, fishing is attended with difficulty. In fact, it is rendered
+impossible wherever the "segler" or sailor fish are found, for the mud
+which these tiny creatures stir up completely veils the sponges from the
+eye of the fisherman.
+
+In 1881 the export amounted to $150,000, of which three-fourths came to
+America.--_Chem. Zeit_.
+
+       *       *       *       *       *
+
+
+
+
+TESTING FISH OVA FOR IMPREGNATION.
+
+
+The development of the eyes of game fishes (salmonoids), as is well
+known, is relatively far advanced before the fish culturist is
+positively assured that embryos are developing normally in the egg.
+A method, therefore, which would enable us to shorten this period of
+probation would not only be desirable, but be also of value under
+certain circumstances, since it is certainly annoying after having had
+them in water for four or five weeks, spending time and care over them,
+to eventually find, when the "eye spots" do not develop, that all our
+trouble was wasted and that no development at all took place.
+
+It is true one may, with proper preparations and with the help of the
+pocket lens or microscope, follow the development while there may be no
+external signs of the process evident. This method of making the
+test is, however, not adapted to the purposes of the practical fish
+culturist, who will have better success by the following method:
+
+If fertilized fish ova are placed in a 50 per cent. solution of wine
+vinegar [any ordinary vinegar will probably be found to answer just
+as well--_Tr_.] the embryo, even during the very first stages of
+development, will become apparent to the eye lying on the transparent
+yelk. The acetic acid contained in the mixture, one part water to
+one part wine vinegar, causes the material of the embryo proper to
+coagulate, while the yelk remains clear.
+
+A short time after the ova are laid in this mixture, and during the
+first week after impregnation, a white circle at one pole of the
+egg should become apparent, and in the course of the second week a
+cylindrical white streak running from the edge of the circle toward its
+center should be evident. If these features are not developed by the
+test, the eggs have not been fertilized, and are, therefore, worthless.
+
+We will not complicate the application of the method by describing other
+details of the development, but would merely suggest that when a lot of
+ova are fertilized a small portion should be left unimpregnated. These
+could then be tested in comparison with the fertilized ova from day to
+day, using say three eggs at a time of each lot. The observant culturist
+could by this means construct for himself a scale of development
+covering the period embraced by his experiments. At a lower temperature
+the development is slower than at a higher one. The difference of
+appearance between fertilized and unfertilized ova treated by the method
+will demonstrate its utility. Whoever does not trust to the method for
+the evidence of death of the eggs until after five weeks subsequent to
+impregnation, must of course wait.
+
+Director Tiefenthaler, of K�lzen, has had the kindness to test the
+method practically, and finds it useful to fish culturists.--_Prof.
+Nussbaum_.
+
+[A very little practice, it seems to the translator, would serve to
+enable any person of ordinary intelligence to apply this method, or
+several others which might be suggested. Other substances which would
+answer the same purpose would be dilute solutions of picric or chromic
+acid, of not more than one to one-half per cent., or one part to two
+hundred of water. Vinegar or acetic acid of the shops may also be used;
+the last to be diluted in the proportions of about one part in ten of
+water. The acids cited will coagulate and cause the germ disk to turn
+white or yellow in a few hours. Chromic is better than picric acid, as
+it coagulates the yelk also, but turns the latter much darker than the
+embryo or embryonic disk.--_Tr_.]
+
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+End of the Project Gutenberg EBook of Scientific American Supplement, No.
+392, July 7, 1883, by Various
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