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+This eBook, including all associated images, markup, improvements,
+metadata, and any other content or labor, has been confirmed to be
+in the PUBLIC DOMAIN IN THE UNITED STATES.
+
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+Project Gutenberg (https://www.gutenberg.org) public repository for
+eBook #54799 (https://www.gutenberg.org/ebooks/54799)
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-The Project Gutenberg EBook of Balloons, Airships, and Flying Machines, by 
-Gertrude Bacon
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world 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.  If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-Title: Balloons, Airships, and Flying Machines
-
-Author: Gertrude Bacon
-
-Release Date: May 27, 2017 [EBook #54799]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK BALLOONS, AIRSHIPS, FLYING MACHINES ***
-
-
-
-
-Produced by deaurider, Charlie Howard, and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
-
-
-
-
-
-
-
-
-THE PRACTICAL SCIENCE SERIES
-
-
-_The following Vols. are now ready or in the Press_:--
-
-        BALLOONS, AIRSHIPS, AND FLYING MACHINES. By
-            GERTRUDE BACON.
-
-        MOTORS AND MOTORING. By Professor HARRY SPOONER.
-
-        RADIUM. By Dr. HAMPSON.
-
-        METEOROLOGY; or, WEATHER EXPLAINED. By J. GORDON
-            M‘PHERSON, M.A., LL.D.
-
-    _Others in Preparation_
-
-
-
-
-[Illustration: THE AUTHORESS, HER FATHER, AND MR. SPENCER MAKING AN
-ASCENT.
-
-            _Frontispiece._
-]
-
-
-
-
-  BALLOONS
-  AIRSHIPS AND FLYING
-  MACHINES
-
-
-  BY
-  GERTRUDE BACON
-
-
-  NEW YORK
-  DODD, MEAD & COMPANY
-  LONDON: T. C. & E. C. JACK
-  1905
-
-
-
-
-CONTENTS
-
-
-  CHAP.                                          PAGE
-    I. THE ORIGIN OF BALLOONING                     9
-
-   II. THE COMING OF THE GAS BALLOON               23
-
-  III. FAMOUS BALLOON VOYAGES OF THE PAST          38
-
-   IV. THE BALLOON AS A SCIENTIFIC INSTRUMENT      57
-
-    V. THE BALLOON IN WARFARE                      69
-
-   VI. THE AIRSHIP                                 84
-
-  VII. THE FLYING MACHINE                         105
-
- VIII. CONCLUSION                                 119
-
-
-
-
-BALLOONS, AIRSHIPS, AND FLYING MACHINES
-
-
-
-
-CHAPTER I
-
-THE ORIGIN OF BALLOONING
-
-
-One November night in the year 1782, so the story runs, two brothers
-sat over their winter fire in the little French town of Annonay,
-watching the grey smoke-wreaths from the hearth curl up the wide
-chimney. Their names were Stephen and Joseph Montgolfier, they were
-papermakers by trade, and were noted as possessing thoughtful minds and
-a deep interest in all scientific knowledge and new discovery. Before
-that night--a memorable night, as it was to prove--hundreds of millions
-of people had watched the rising smoke-wreaths of their fires without
-drawing any special inspiration from the fact; but on this particular
-occasion, as Stephen, the younger of the brothers, sat and gazed at
-the familiar sight, the question flashed across his mind, “What is the
-hidden power that makes those curling smoke-wreaths rise upwards, and
-could I not employ it to make other things rise also?”
-
-[Illustration: MEDALLION SHOWING BROTHERS MONTGOLFIER.]
-
-Then and there the brothers resolved on an experiment. They made
-themselves a small fire of some light fuel in a little tin tray or
-chafing-dish, and over the smoke of it they held a large paper-bag. And
-to their delight they saw the bag fill out and make a feeble attempt
-to rise. They were surely on the eve of some great invention; and yet,
-try as they would, their experiment would not quite succeed, because
-the smoke in the bag always became too cool before there was enough
-in it to raise it from the table. But presently, while they were thus
-engaged, a neighbour of theirs, a widow lady, alarmed by seeing smoke
-issuing from their window, entered the room, and after watching their
-fruitless efforts for some while, suggested that they should fasten the
-tray on to the bottom of the bag. This was done, with the happy result
-that the bag immediately rose up to the ceiling; and in this humble
-fashion the first of all balloons sailed aloft.
-
-That night of 1782, therefore, marks the first great step ever made
-towards the conquest of the sky. But to better understand the history
-of “Aeronautics”--a word that means “the sailing of the air”--we must
-go back far beyond the days of the Montgolfier brothers. For in all
-times and in all ages men have wanted to fly. David wished for the
-wings of a dove to fly away and be at rest, and since his time, and
-before it, how many have not longed to take flight and sail away in the
-boundless, glorious realms above, to explore the fleecy clouds, and to
-float free in the blue vault of heaven.
-
-And since birds achieve this feat by means of wings, man’s first idea
-was to provide himself with wings also. But here he was at once doomed
-to disappointment. It is very certain that by his own natural strength
-alone a man will never propel himself through the air with wings like
-a bird, because he is made quite differently. A bird’s body is very
-light compared with its size. The largest birds in existence weigh
-under thirty pounds. A man’s body, on the contrary, is very heavy and
-solid. The muscles that work a bird’s wing are wonderfully powerful and
-strong, far stronger in proportion than the muscles of a man’s arm.
-To sustain his great weight in the air, a man of eleven stone would
-require a pair of wings nearly twenty feet in span. But the possession
-of such mighty wings alone is not enough. He must also possess bodily
-strength to keep them in sufficient motion to prevent him from falling,
-and for this he would require at least the strength of a horse.
-
-Such strength a man has never possessed, or can ever hope to; but
-even as it is, by long practice and great effort, men have succeeded
-at different times, not exactly in flying, but in helping themselves
-along considerably by means of wings. A man is said to have flown in
-this way in Rome in the days of Nero. A monk in the Middle Ages, named
-Elmerus, it is stated, flew about a furlong from the top of a tower
-in Spain, another from St. Mark’s steeple in Venice, and another from
-Nuremburg. But the most successful attempt ever made in this direction
-was accomplished about 200 years ago by a French locksmith of the name
-of Besnier. He had made for himself a pair of light wooden oars, shaped
-like the double paddle of a canoe, with cup-like blades at either
-end. These he placed over his shoulders, and attached also to his
-feet, and then casting himself off from some high place, and violently
-working his arms and legs so as to buffet the air downwards with his
-paddles, he was able to raise himself by short stages from one height
-to another, or skim lightly over a field or river. It is said that
-subsequently Besnier sold his oars to a mountebank, who performed most
-successfully with them at fairs and festivals.
-
-[Illustration: BESNIER AND HIS OARS.]
-
-But it was soon clear that the art of human flight was not to be
-achieved by such means; and when men found that they were unable
-to soar upwards by their own bodily strength alone, they set about
-devising some apparatus or machine which should carry them aloft. Many
-ancient philosophers bent their minds to the inventing of a machine for
-this purpose. One suggested that strong flying birds, such as eagles or
-vultures, might be harnessed to a car, and trained to carry it into the
-sky. Another gravely proposed the employment of “a little imp”--for in
-those days the existence of imps and demons was most firmly believed
-in. A third even went so far as to give an actual _recipe_ for flying,
-declaring that “if the eggs of the larger description of swans, or
-leather balls stitched with fine thongs, be filled with nitre, the
-purest sulphur, quicksilver, or kindred materials which rarefy by their
-caloric energy, and if they externally resemble pigeons, they will
-easily be mistaken for flying animals.” (!)
-
-The first man who appeared to have any inkling of the real way of
-solving the problem of a “flying chariot,” and who in dim fashion seems
-to have foreshadowed the invention of the balloon, was that wonderful
-genius, Roger Bacon, the Learned Friar of Ilchester, the inventor or
-re-inventor of gunpowder, who lived in the thirteenth century. He had
-an idea--an idea which was far ahead of his times, and only proved to
-be true hundreds of years after--that the earth’s atmosphere was an
-actual substance or “true fluid,” and as such he supposed it to have
-an upper surface as the sea has, and on this upper surface he thought
-an airship might float, even as a boat floats on the top of the water.
-And to make his airship rise upwards to reach this upper sea, he said
-one must employ “a large hollow globe of copper or other similar metal
-wrought extremely thin, to have it as light as possible, and filled
-with _ethereal air_ or liquid fire.”
-
-It is doubtful whether Bacon had very clear ideas of what he meant by
-“ethereal air.” But, whether by accident or insight, he had in these
-words hit upon the true principle of the balloon--a principle only
-put into practice five centuries later. He saw that a body would rise
-upwards through the air if it were filled with something lighter than
-air, even as a body will rise upwards through the water if it is made
-of, or filled with, something lighter than water. We know that if we
-throw an empty bottle tightly corked into the sea it does not sink, but
-rises upwards, because it is filled with air, which is lighter than
-water. In the same way exactly a light bag or balloon which is filled
-with some gas which is lighter than air will not stay on the surface
-of the ground, but will rise upwards into the sky to a height which
-depends upon its weight and buoyancy.
-
-Later philosophers than Bacon came to the same conclusion, though they
-do not seem to have seen matters more clearly. As recently as 1755 a
-certain learned French priest actually suggested that since the air
-on the top of high mountains is known to be lighter than that at an
-ordinary level, men might ascend to these great heights and bring down
-the light air “in constructions of canvas or cotton.” By means of
-this air he then proposed to fly a great machine, which he describes,
-and which seems to have been as large and cumbersome as Noah’s Ark.
-Needless to say, the worthy Father’s proposal has never yet been put
-into practice.
-
-But it is time now that we return to the two brothers Montgolfier and
-their paper-bag of smoke. Their experiments proved at once that in
-smoke they had found something which was lighter than air, and which
-would, therefore, carry a light weight upwards. But of what this
-something was they had, at the time, but a confused idea. They imagined
-that the burning fuel they had used had given off some special light
-gas, with the exact nature of which they were unacquainted. The very
-word gas, be it here said, was in those days almost unknown, and of
-different gases, their nature and properties, most people had but the
-very vaguest notions.
-
-And so for some time the Montgolfiers and their followers supposed
-that the presence of this mysterious gas was necessary to the success
-of their experiments, and they were very careful about always using
-special kinds of fuel, which they supposed gave off this gas, to
-inflate their bags. Later experiments proved, however, what every one
-now knows, that the paper-bag rose, not because of the gases given off
-by the fire, but by reason of the hot air with which it became filled.
-Nearly all substances, no matter how solid, expand more or less under
-the influence of heat, and air expands very greatly indeed. By thus
-expanding heated air becomes lighter than the surrounding air, and,
-because it is lighter, rises upwards in the atmosphere, and continues
-to rise until it has once more regained the average temperature.
-
-[Illustration: MONTGOLFIER’S BALLOON.]
-
-Encouraged by the success of their first humble experiment, the
-Montgolfiers next tried their paper-bag in the open air, when to their
-delight it sailed upwards to a height of 70 feet. The next step was
-to make a much larger craft of 600 cubic feet capacity and spherical
-in shape, which they called a “Balloon,” because it was in appearance
-like a large, round, short-necked vessel used in chemistry which was
-technically known by that name. This great bag, after being inflated,
-became so powerful that it broke loose from its moorings, and floated
-proudly upwards 600 feet and more, and came down in an adjoining
-field. After a few more successful trials the brothers thought that
-the time had come to make known their new invention. Accordingly
-they constructed a great balloon of 35 feet in diameter, and issued
-invitations to the public to come and see the inflation. This was
-successfully made over a fire of chopped straw and wool, and the giant
-rose up into the sky amid the deafening applause of a huge multitude,
-and after attaining a height of 7000 feet, fell to the ground a mile
-and a half away.
-
-The news of this marvellous event spread like wild-fire throughout the
-kingdom, and soon not only all France, but all Europe also, was ringing
-with the tidings. The French Royal Academy of Sciences immediately
-invited Stephen Montgolfier to Paris, and provided him with money to
-repeat his experiment. He accordingly constructed a yet larger machine,
-which stood no less than 72 feet high, had it most magnificently
-painted and decorated and hung with flags, and sent it up at Versailles
-in the presence of the King and all his court.
-
-This particular balloon is noteworthy as having been the first of all
-balloons to carry living passengers into the air. They were three
-in number, a sheep, a cock, and a duck. Breathlessly the assembled
-multitude watched these innocent victims placed in the basket and soar
-calmly and majestically above their heads; and eagerly they followed
-the balloon to where it fell half a mile away to learn their fate.
-Would they have been suffocated in those upper regions of the air which
-no human being had yet explored, or would they be dashed to pieces in
-the descent? But they found the trio quite uninjured; the unimaginative
-sheep grazing quietly, and the duck cheerfully quacking. Forthwith
-the cry then arose that it was time for a man to hazard the ascent,
-and King Louis, who, like every one else, was vastly excited over the
-wonder, suggested that two criminals then lying under sentence of death
-should be sent aloft.
-
-But now a brave French gentleman--M. Pilâtre de Rozier, a name ever
-to be remembered in the history of the conquest of the air--uprose in
-indignation. “Shall vile criminals have the first glory of rising into
-the sky!” he cried, and then and there he proudly claimed for himself
-the honour of being first among mortals in the history of the world
-to sail the air. His courageous resolve was wildly applauded, and
-forthwith preparations were commenced for the new venture. A yet larger
-balloon was made, in height as tall as a church tower, with a mouth 15
-feet across. Around the mouth was fastened a gallery of wicker-work,
-three feet wide, to hold the passengers, and below all was slung with
-chains an iron brazier of burning fuel.
-
-By way of precaution, when all was complete De Rozier made a few short
-captive excursions, the balloon being fastened to earth by a rope. But
-all proving satisfactory, he decided to hazard a “right away” trip on
-the 21st of November 1783, when he was also to be accompanied by an
-equally courageous fellow-countryman, the Marquis d’Arlandes. It would
-be difficult to conceive a more daring and perilous enterprise than
-these two brave Frenchmen set themselves. They were to venture, by
-an untried way, into unknown realms where no mortal had been before;
-they were to entrust their lives to a frail craft whose capabilities
-had never yet been tested, and at a giddy height they were to soar
-aloft with an open fire, which at any moment might set light to the
-inflammable balloon and hurl them to destruction.
-
-Wild indeed was the applause of the crowd as the mighty craft, after
-due inflation, rose majestically into the sky, carrying with it its two
-brave voyagers--
-
-          the first that ever burst
-    Into that silent sea;
-
-and with what anxiety was its course followed as, rising rapidly to a
-height of 3000 feet, it drifted away on an upper current which bore it
-right over the city of Paris. The travellers themselves experienced
-various excitements during their adventurous trip. They had constantly
-to stir the fire and feed it with fresh fuel; they had also with wet
-sponges continually to extinguish the flames when the light fabric
-from time to time ignited. At one period they feared descending into
-the river or on the house-tops, at another a sharp shock gave them the
-impression that their balloon had burst. But they came safely in the
-end through all perils and alarms, descending quietly, after a voyage
-of twenty-five minutes’ duration, five miles from their starting-place.
-
-[Illustration: AN EARLY HYDROGEN BALLOON.]
-
-Thus was invented and perfected in the course of less than a year
-the first of all craft which carried man into the sky--the Hot-Air
-or Montgolfier Balloon. To this day large hot-air balloons inflated
-by the same methods employed a hundred years ago occasionally take
-passengers aloft. Indeed, there now seems a likelihood that the use of
-the Montgolfier balloon will be largely revived for military purposes,
-since, with modern improvements, it would appear to be more quickly and
-easily inflated than a gas balloon in time of warfare. With miniature
-hot-air balloons we are all familiar, for every schoolboy has made
-them for himself of coloured papers, and watched them float away on
-the breeze with as much admiration and delight as the two brothers of
-Annonay watched their bag first float upwards to the ceiling.
-
-But almost before the invention of the hot-air balloon had been
-completed, and before Pilâtre de Rozier had made his ascent, a rival
-craft had appeared upon the scene, to which we must more specially
-refer in the next chapter.
-
-
-
-
-CHAPTER II
-
-THE COMING OF THE GAS BALLOON
-
-
-During the time of which we are speaking there was living in London a
-famous chemist named Henry Cavendish. He was the son of a nobleman,
-and a very rich man; but he shut himself up entirely from the world,
-and devoted his whole time and energies to the study of science. So
-afraid was he of being interrupted in his work that he lived the life
-of a hermit, commanding his servants to keep out of his sight on pain
-of dismissal, and ordering his dinner daily by means of a note placed
-on the hall table. In the year 1760--twenty-two years before the
-Montgolfier brothers began their experiments--this eccentric man had
-discovered what was then known as “inflammable air,” but what we now
-call hydrogen gas.
-
-Cavendish’s experiments proved that hydrogen is the lightest of all
-known substances, being about fourteen times lighter than atmospheric
-air; and soon after he had made known his researches, it occurred to a
-certain Dr. Black of Edinburgh that if a sufficiently thin and light
-bladder were filled with this “inflammable air” it would rise upwards.
-Dr. Black even went so far as to order a special bladder to be prepared
-for the purpose; but by the time it was ready he was busy with other
-work, and the experiment was never made; otherwise it is extremely
-probable that the honour of inventing the balloon would have been won
-for this country, and not for France.
-
-A little later Tiberius Cavallo, an Italian chemist living in England,
-came yet nearer to the great invention, for he filled a number
-of soap-bubbles with the newly discovered gas, and saw them float
-high into the air. He did not, however, think at the time that his
-experiments would lead to any practical result, and so the matter
-dropped entirely, until the world was suddenly electrified by the
-tidings of the wonderful hot-air balloon invented by the brothers
-Montgolfier at Annonay.
-
-The news of this discovery recalled to the minds of many the almost
-forgotten experiments of the past, and it was forthwith suggested
-that balloons might be inflated with hydrogen gas more successfully
-than with hot air. It was resolved immediately to put this theory to
-the test. A large subscription to defray expenses was raised in Paris
-without difficulty, for men’s minds were keen on the new-found art of
-sailing the sky; and M. Charles, Professor of Experimental Philosophy,
-and two brothers, the Messrs. Roberts, well-known mechanicians, were
-appointed to construct a suitable balloon and inflate it by the new
-method.
-
-But they were immediately confronted with a difficulty. Hydrogen
-being the lightest and most subtle of gases, they were at a loss
-to know of what material to make their balloon, to prevent the gas
-escaping. After several failures they eventually constructed a bag of
-a special kind of silk, and coated it all over with a varnish made of
-indiarubber dissolved in turpentine. As they found great difficulty in
-manufacturing large quantities of hydrogen, they were forced to make
-their bag a comparatively small one, about thirteen feet in diameter.
-On the 25th of August 1783 the bag was successfully filled, and the
-ascent was made in Paris in the presence of an enormous crowd. The
-little balloon rose upwards with immense rapidity, until it was lost
-to sight in the clouds. Ascending yet higher, it presently burst, and
-came to the earth in a village, fifteen miles away, after a voyage of
-three-quarters of an hour.
-
-[Illustration: ATTACK ON THE FIRST CHARLIER BALLOON.]
-
-In the field where the balloon fell a party of peasants were at work;
-at its approach they fled in abject terror. From a safe distance they
-watched the strange new monster settle to earth and lie prone, and
-then they cautiously drew nearer to inspect it. The silk still heaved
-with the escaping gas, and the countrymen were fully convinced that
-an actual living creature of mysterious nature lay before them. One
-man seized his gun and fired full at it, and then supposing it to be
-mortally wounded, they all rushed in with flails and pitchforks to
-complete its destruction, finally tying it to the tail of a horse, who
-galloped with it all over the country, tearing it to shreds. It was
-small wonder that after such an occurrence the French Government issued
-a proclamation to the people, telling them that these aeronautical
-experiments were to be repeated, and warning them not to be alarmed
-if they saw a balloon in the air, since it was a perfectly harmless
-machine filled with gas, and incapable of injuring any one.
-
-This event took place about three months after the first public
-ascent of the hot-air balloon. The new craft was immediately called
-a “Charlier,” after its inventor, and to distinguish it from the
-“Montgolfier.” There followed various exhibitions of the rival
-airships, and after the voyage of Pilâtre de Rozier and the Marquis
-D’Arlandes, Messrs. Charles and Roberts resolved also to hazard an
-ascent in a balloon inflated with hydrogen.
-
-A new machine was therefore constructed, which differed in many
-important details from all others which had previously been made. It
-was twenty-seven feet in diameter, of varnished silk, and over it was
-spread a net of cordage. Instead of a gallery to carry the passengers,
-as in the “Montgolfier,” a car shaped like a boat was suspended from
-the net with ropes and hung a few feet below the balloon. A valve to
-let out the gas was also provided, and the voyagers carried in their
-car ballast and a barometer to indicate their height. It will thus be
-seen that this new balloon was in all practical details the same as the
-balloon of the present day.
-
-The ascent took place on the 17th of December in Paris. Stephen
-Montgolfier was present, and launched a small hot-air balloon, which
-amused the onlookers and indicated the direction of the wind. Then
-MM. Charles and Roberts stepped into the car, and the balloon being
-liberated, they were immediately carried up to a height of 6000 feet,
-where a glorious panorama of Paris and the adjacent country was spread
-out before their delighted vision. After staying aloft about a couple
-of hours they descended to earth again, and Roberts got out of the
-car. Charles decided to continue the voyage awhile by himself, and,
-lightened of his companion’s weight, the balloon this time rose to
-10,500 feet. The sun had by this time set upon the earth, but at
-this height Charles saw it rise once more and set a second time. The
-thermometer fell far below freezing-point, and he was benumbed with
-cold and felt violent pains in his ears. When at his greatest elevation
-he was obliged to pull the valve to prevent the balloon from bursting,
-and eventually descended without mischance about seven miles from where
-Roberts had left him.
-
-It would be well now to describe a little more fully the way in which
-the “Montgolfier” and “Charlier” balloons were inflated. Each of
-the rival methods had its advantages and also its disadvantages. In
-the case of the hot-air balloon a shallow pit was dug, in which a
-quick-burning fire of chopped wool and straw was lighted, and the bag
-simply suspended over it. The inflation was thus rapid, and its cost
-comparatively small; the great drawback being that as the bag was of
-very light material, it ran considerable risk of being ignited by the
-fire; and all the while it was filling it was the uncomfortable duty
-of an unfortunate attendant to stand actually inside, roasted with the
-heat and choked with the smoke, armed with a paddle with which to beat
-out the flames whenever the bag caught alight.
-
-[Illustration: FILLING A HOT-AIR BALLOON.]
-
-This danger of fire was done away with in the method of filling
-with hydrogen gas. The balloon, suspended from aloft as before, was
-connected by hose-pipes with a number of casks containing iron or zinc
-filings upon which dilute sulphuric acid was poured. The effect of
-mixing these substances together is to set up a brisk chemical action,
-in the course of which hydrogen gas is given off. In this case the
-hydrogen thus liberated came through the pipes and filled the balloon.
-The great disadvantages of this method of filling--which, it may here
-be mentioned, is occasionally employed at the present day--are the long
-time it occupies, the great labour entailed, and the enormous expense.
-
-[Illustration: FILLING A HYDROGEN GAS BALLOON.]
-
-It is said that when Roberts and Charles returned from their
-adventurous voyage they were immediately arrested and thrown into
-prison by order of the King, who considered it his duty to put a stop
-to his subjects risking their lives in such dangerous enterprises.
-Public opinion was too strong for him, however, and the two heroes were
-quickly released, and Charles was rewarded by a pension of £200 a year
-for life. This newly discovered art of sailing the heavens had indeed
-fired popular imagination to an extraordinary degree. Probably no
-invention has ever aroused greater enthusiasm. Not only all France but
-all the civilised world went wild with excitement for the time. Most
-extravagant statements were made and written. A new kingdom, it was
-declared, had been given to mankind to conquer; voyages might be made
-to the moon and stars, and now it would even be possible to take Heaven
-itself by storm!
-
-Ascent after ascent took place with the “Montgolfier” and the
-“Charlier,” both in France and in other countries; nor was it long
-before the balloon made its appearance in England. In August of the
-next summer (1784) a Mr Tytler of Edinburgh made some short voyages in
-a hot-air balloon of his own manufacture, and in the following month a
-much more adventurous attempt was successfully carried out in London by
-a young Italian of the name of Vincent Lunardi.
-
-Lunardi was at this time secretary to the Neapolitan Ambassador. He was
-keenly interested in the subject of ballooning, and presently became
-fired with a desire to repeat in England those aerial experiments
-which were creating such a sensation on the Continent. He was only a
-poor man, and great difficulties stood in the way of accomplishing his
-object. He had to excite public interest in his venture, to collect
-subscriptions to defray the cost of his balloon, which was to be a
-“Charlier,” and to find a suitable site in London for the inflation and
-ascent. He met with disappointments and disasters enough to discourage
-a less enthusiastic man, but at length, after many troubles, on the
-15th of September his balloon was ready and in process of filling in
-the grounds of the Honourable Artillery Company, in the city, where
-150,000 people had assembled to witness the new wonder.
-
-[Illustration: VINCENT LUNARDI.]
-
-Still Lunardi’s trials were not at an end. The balloon was advertised
-to ascend at a certain hour; but the supply of gas was insufficient,
-so that when the time came it was only partially filled, and a long
-delay ensued. The vast crowd--more than half inclined to believe the
-whole thing an imposture--began to grow very impatient and unruly, and
-it was only the presence of the Prince of Wales, afterwards George the
-Fourth, which kept them in restraint for another hour while the filling
-continued.
-
-Even then the balloon was not full; but Lunardi felt he could wait no
-longer. He left behind him the companion who was to have accompanied
-him, substituted a smaller and lighter car, jumped inside and severed
-the ropes. Instantly the balloon rose high over the delighted city, as
-the crowd, led by the Prince himself, rent the air with their cheers.
-Wild was the excitement in every quarter. At Westminster King George
-the Third was in conference with Mr. Pitt and his other chief Ministers
-of State, but when it was known that Lunardi was in the sky the King
-exclaimed, “Gentlemen, we may resume our deliberations at pleasure,
-but we may never see poor Lunardi again!” and with one accord they
-adjourned to watch his progress through telescopes. Tradesmen rushed
-out of their shops, business men from their offices, even judge and
-jury from their courts.
-
-[Illustration: LUNARDI’S BALLOON.]
-
-Lunardi continued his voyage over the town into the country beyond. His
-balloon apparently attained a considerable height, for he found that
-the condensed moisture round the neck had frozen, and the gas, which to
-begin with had only two-thirds filled the balloon, presently expanded
-so much that he was obliged to untie the mouth to relieve the strain.
-He had taken up with him as companions a dog and a cat. The cat was
-very ill at ease in the cold of the upper regions, and he resolved to
-put her out; so, coming down to the ground, he handed her to a country
-woman standing in a field. Throwing out ballast, he then rose again
-and continued his voyage for some distance, eventually descending in
-a meadow near Ware. Some labourers were at work on the spot, but they
-at first refused to come near him, and a young woman was the first
-whom he could induce to help him out of his car. A stone with a long
-inscription, set up in a meadow in the parish of Standon, near Ware,
-marks to this day the place where the first of all English balloons
-touched ground.
-
-The following year witnessed a yet bolder enterprise. Blanchard, a
-French aeronaut, and Dr. Jeffries, an American, determined on an
-attempt to cross the Channel. On a winter’s day, early in 1785, they
-had their balloon inflated with hydrogen at Dover and boldly cast off
-to sea. The cold air appeared to chill the gas more than they had
-foreseen, and long before they were across the Channel their balloon
-began settling down upon the water. They threw out all their ballast,
-then a number of books they were carrying, then their anchor, extra
-ropes, and other gear. Still it seemed very doubtful whether they would
-reach the French coast, and as a last resort they began even to throw
-away their clothes to lighten the balloon. Fortunately at this moment
-the balloon shot up into the air again, and eventually brought them
-down in safety near the forest of Guiennes.
-
-So far, although several hundred ascents had been made, and in spite of
-the many and great dangers of the new-found art and the inexperience
-of the early voyagers, no fatal accident had marred the delight of
-sailing the skies. Disasters, however, were soon to come. It is sad
-to relate that the earliest to fall a victim was the brave Pilâtre de
-Rozier himself, the first of all men to go aloft in a balloon. Fired
-with a desire to emulate Blanchard and Jeffries, he decided that he
-himself would cross the Channel, this time from France to England; and
-to avoid, as he imagined, the cooling of the gas, which had so nearly
-proved disastrous on the previous occasion, he hit on the extraordinary
-idea of combining the principles of both the “Montgolfier” and
-“Charlier” balloons, and suspending a fire balloon beneath another
-filled with hydrogen gas. It seems a remarkable thing to us now that
-no one in those days saw the awful danger of such a combination. The
-inevitable happened. When the balloon was high in the air the furnace
-of the hot-air machine set fire to the highly inflammable hydrogen, a
-fearful explosion followed, and De Rozier and his companion were dashed
-to pieces.
-
-
-
-
-CHAPTER III
-
-FAMOUS BALLOON VOYAGES OF THE PAST
-
-
-Unfortunately the death of Pilâtre de Rozier was but the first of a
-series of fatal accidents which marred the early years of the history
-of ballooning. Shortly afterwards another French aeronaut, going up
-in too shallow a car, fell overboard when at a great height and was
-killed. A little later Count Zambeccari, an Italian, ascended in a
-hot-air balloon, which, on coming near the earth, became entangled in
-a tree. The furnace it carried set fire to the silk. To escape from
-the flames, the Count leapt to the ground and was killed on the spot.
-A few years after, Madame Blanchard, wife of the man who first crossed
-the English Channel, made a night ascent from Paris with a number of
-fireworks hung from the car. These, in some way, ignited the balloon,
-which fell to the ground, killing the unfortunate lady in its fall.
-
-On the other hand, many miraculous escapes are on record. One of the
-earliest balloonists spent the night alone aloft in the midst of a
-terrific thunder-storm, with the lightning flashing all around him,
-and yet descended in safety when morning broke. M. Garnerin, a famous
-French aeronaut of this date, also was lost in a storm. His balloon
-became unmanageable, and borne to earth was dashed against a mountain
-side, the occupant losing consciousness, until the balloon, which had
-ascended again, brought him safely down once more many miles away.
-
-A marvellous escape took place in 1808, when two Italians ascended in
-a gas balloon from Padua and attained a great height, estimated as
-approaching 30,000 feet. Here the balloon burst, and came precipitately
-to the ground; and yet, despite the terrific fall, the aeronauts
-escaped with their lives. The explanation of this seeming impossibility
-was, no doubt, the tendency which a balloon, emptied of its gas,
-possesses to form a natural parachute. During a rapid fall the lower
-part of the silk will, if loose, collapse into the upper portion to
-form a kind of open umbrella, and thus very effectually break the
-descent. Many balloonists have owed their safety in similar accidents
-to this fortunate fact.
-
-The bursting of balloons when at high altitudes has already been
-referred to as happening on several previous occasions. It is a danger
-which is always present when a balloon is aloft, unless due precautions
-are taken, and the neglect of these precautions has probably led
-to more ballooning accidents than any other cause. The explanation
-is simply the varying pressure exerted upon the bag of gas by the
-weight of the atmosphere. When an inflated balloon is resting upon
-the ground, the vast ocean of air above it is pressing upon it with a
-weight of approximately fifteen pounds to the square inch, and it is
-this pressure which prevents the enclosed gas from expanding beyond
-a certain limit. The balloon then rises high into the air, where the
-weight of atmosphere pressing upon it is much diminished. The higher it
-rises the less the pressure becomes, and the gas it holds soon expands
-so much that, unless a vent is provided for it, the balloon will burst.
-At the present day the neck of a balloon is always left wide open when
-the balloon is in the air, to allow of the escape of the gas during the
-ascent.
-
-A perilous adventure befell Mr. Sadler, an English aeronaut, in 1812,
-whilst attempting to cross the Irish Channel. He started from Dublin
-with a wind which he hoped would carry him to Liverpool, but had gone
-only a short distance when he discovered a rent, which seemed to be
-increasing, in the silk of his balloon. Climbing the rigging with
-difficulty, he contrived to tie up the hole with his neckcloth. He was
-by this time over the sea, and having passed near the Isle of Man,
-found himself, as evening was approaching, close to the coast of North
-Wales. Here he endeavoured to seek a landing, but just at the critical
-moment the wind shifted, as it frequently does in this treacherous
-Channel, and he was quickly blown out to sea again. There he remained
-for another hour vainly endeavouring to make the land, and then,
-despairing of the attempt and seeing five ships beneath him, he came
-boldly down on the water, trusting they would come to his assistance.
-
-But he came down too far away from them, and one and all continued
-their course and took no notice. He was obliged, therefore, to throw
-out ballast and to rise into the air once more. The sun was now
-set upon the level of the water, but as the brave aeronaut rose he
-beheld it once more above the horizon, and was cheered by its beams.
-Presently he saw beneath him three more vessels, which signalled their
-willingness to help him, and he immediately came down on the sea again
-as close to them as he could. But the wind, now rising fast, caught the
-half empty silk of the balloon as it touched the waves, and bore it
-along over the surface of the water at a terrific pace; and although
-the vessels came after in full pursuit, they were unable to overtake it.
-
-Mr. Sadler then dropped his grappling-iron to act as a drag, and this
-not proving sufficient, took off his clothes and tied them to the iron
-as a further expedient. Still the vessels failed to overhaul him as he
-sped over the waves, and he was at length forced to let out a quantity
-of the gas still remaining, and so cripple the balloon. But this was
-a dangerous move, for the car now instantly sank; and the unfortunate
-man had to clutch the hoop and then the netting, to keep himself above
-water. Chilled and exhausted, and frequently plunged beneath the waves,
-he was soon at the point of death; for the nearest ship, though now
-close at hand, fearful of becoming entangled in the netting, still held
-off. Fainting as he was, Mr. Sadler yet managed to summon strength to
-call to the sailors to run their bowsprit through the balloon to stop
-its course, and this being done, he was hauled on board more dead than
-alive.
-
-Five years passed, and no more attempts were made to cross the
-treacherous Irish Sea, until Mr. Sadler’s own son, Mr. Windham Sadler,
-determined himself to make the attempt which had so nearly cost his
-father his life. Choosing the same starting-ground for his venture, he
-left Dublin on the longest day of 1817, and, fortune favouring him,
-reached the Welsh coast not far from Holyhead, after a voyage of 70
-miles, lasting five hours. This was the last attempt to cross the
-Irish Channel, until November 1902, when the Rev. J. M. Bacon and Mr.
-Percival Spencer, starting from Douglas, in the Isle of Man, landed in
-a rocky glen 15 miles beyond Dumfries, after a journey of 80 miles,
-accomplished in three hours. Brave Mr. Windham Sadler unhappily lost
-his life in a terrible balloon accident in 1824.
-
-But a more celebrated balloonist, perhaps the most famous of all, had
-by this time come to the fore--Charles Green, fitly called “The Father
-of English Aeronautics.” It was he who first introduced a new method
-of balloon-filling, which quickly revolutionised the whole art and
-practice. This was nothing more or less than the employment of ordinary
-household or coal gas for inflation, in place of the costly and
-dangerous hydrogen.
-
-While balloons were inflated only with pure hydrogen--for the uncertain
-and dangerous method of filling with hot air was soon almost entirely
-abandoned--no great strides could be made in the art of sailing the
-skies. The filling of a large balloon eighty years ago cost no less
-than £250, and few people could be found willing to provide so much
-money for such a purpose. Coal gas, however, was by then to be found
-in every town of any consequence; and it was Green’s suggestion that
-though this gas might be greatly inferior to pure hydrogen in buoyancy
-or “lifting power,” it yet contained a sufficient quantity of hydrogen
-in it for all ordinary aeronautical purposes.
-
-The coronation of King George the Fourth was the occasion chosen
-by Green to put his new scheme to the test and fill a balloon with
-coal gas. The experiment was entirely successful, and henceforward
-balloon ascents became much commoner throughout the world, for Green’s
-discovery reduced the cost of filling tenfold, and the trouble and
-anxiety a hundredfold. Green himself became one of the most famous men
-of his day, and lived to make a thousand ascents, some of them of the
-most daring and exciting description.
-
-[Illustration: THE GREAT NASSAU BALLOON.]
-
-The most celebrated event in all his career, however, was the voyage
-of the Great Nassau Balloon, in November 1836. This voyage created a
-tremendous sensation at the time, and has always been considered one of
-the most adventurous enterprises in the whole history of aeronautics.
-How it came about was as follows:--
-
-The managers of the Vauxhall Gardens, London, had made, with Mr.
-Green’s assistance, a very large and fine balloon of crimson silk,
-which stood eighty feet high and held 90,000 cubic feet of gas, and
-which would carry, if needed, more than twenty persons. After it was
-made the proprietors proposed exhibiting it in Paris, and there was
-some question of how this valuable and fragile property had best be
-conveyed so far. Mr. Hollond, a young gentleman of considerable wealth,
-and a great lover of adventure, at once came forward, and proposed
-to take the balloon to the Continent by sky. His offer was accepted,
-and to make the ascent more noteworthy, it was decided to start from
-London and cross the sea by night, making as long a voyage as possible,
-although it was already winter time, and such a venture had never
-before been made.
-
-Preparations were at once commenced. The passengers were limited to
-three--Mr. Green, who was to manage the balloon, Mr. Hollond, and his
-friend Mr. Monck Mason. A ton of ballast was to be carried, provisions
-for a whole fortnight were laid in, and, since none could tell to
-within a thousand miles or more where they might be drifted, passports
-to every kingdom in Europe were obtained.
-
-They left London late one November day, and, rising under a north-west
-wind, skirted the north of Kent. Passing presently over Canterbury,
-they wrote a courteous message to the mayor, and dropped it in a
-parachute. Some time later, when the short autumn twilight was
-beginning to wane, they saw beneath them the gleam of white waves, and
-knew they had reached the boundary of the hitherto much-dreaded sea.
-Immediately afterwards they entered a heavy sea fog, which hid all
-things from their sight, and darkness and dead silence reigned around.
-
-[Illustration: THE VOYAGE ACROSS THE CHANNEL.]
-
-This lasted for fifty minutes, when they emerged from the cloud and
-found the bright lights of Calais beneath them. It was then quite dark,
-and they sped on through the night over unknown towns and villages
-whose lights gleamed fainter and fewer as the time went on. Then once
-again they entered the fog-bank, and for long hours no sign or sound of
-earth reached them more.
-
-As the night wore on they suddenly had a startling and alarming
-experience. Their balloon, which had been flying near the earth, was
-presently lightened by the discharge of ballast, and rose to a height
-of 12,000 feet into the air. Immediately afterwards, when all around
-was wrapped in the deepest silence and the blackest darkness, there
-came the sound of a sharp explosion from over their heads, followed
-by a rustling of the silk, and immediately the car received a violent
-jerk. The same thing was repeated again and yet again, and it is small
-wonder that the awful conviction then seized the party that there,
-in the darkness, in the dead of night, at that fearful height, their
-balloon had burst, and they were falling headlong to the ground. Great
-indeed must have been their relief when they found this was not the
-case, and discovered the real reason of their alarm.
-
-It is the tendency of a balloon when flying near the ground to assume
-an elongated or pear shape; and while their balloon was in this
-position the netting, which was wet with dew, had frozen hard and
-tight around it. Immediately they rose to great heights the gas had
-expanded, and the balloon had become globular in shape, with a result
-that the stiffened ropes sprang to their new position with the crack
-and jerk which had so startled the party. When day broke next morning
-they found themselves over long tracts of desolate forest land, and
-fearing they were approaching the wild, inhospitable steppes of Russia,
-they descended with all speed, and discovered they were in the Duchy
-of Nassau, in Germany, near Weilburg, where they were received with
-the wildest enthusiasm and delight. From start to finish they had
-accomplished a voyage of 500 miles in eighteen hours.
-
-After this event Green made many other voyages in the great Nassau
-balloon, and met with many exciting adventures. On one occasion,
-ascending in a violent gale of wind, he and a passenger covered twenty
-miles in a quarter of an hour, and, on descending near Rainham, in
-Essex, were blown along across the fields at a furious pace, until the
-anchor caught, and brought them up with such a wrench that it broke the
-ring and jerked the car completely upside down. Green and his friend
-only escaped from being thrown out by holding on to the ropes, and
-they were afterwards dragged wildly through fences and hedges until the
-balloon collapsed and came to a stand, though not before they had both
-been severely hurt.
-
-On another voyage the famous balloon met with serious injury, for
-having been some time above the clouds, during an ascent, Green found
-himself carried out to sea, and was obliged to come down in the water
-two miles north of Sheerness. As in the accident which befell Mr.
-Sadler in his attempt to cross the Irish Channel, the wind caught the
-silk and bore it along across the water too rapidly for a pursuing
-vessel to overtake it. Green then lowered his anchor, which by happy
-chance soon became entangled in a sunken wreck, and so brought the
-balloon up. A boat immediately put out to his assistance, and he and a
-companion were speedily rescued; but the balloon was so restive in the
-wind that it was dangerous to approach it. Green himself then suggested
-that a volley of musketry should be fired into the silk to expel the
-gas, and this was accordingly done and the balloon secured, though it
-afterwards took Green a fortnight’s hard labour to repair the damage
-done to the fabric.
-
-But the saddest event connected with the Nassau balloon was the fatal
-accident which befell Mr. Cocking in 1837, the year after the great
-Nassau voyage. Before relating this, however, it will be necessary
-to refer briefly to the history of a most important accessory of the
-balloon, hitherto unmentioned--the parachute.
-
-The name parachute comes from two French words, _parer_, to parry and
-_chute_, a fall, and it signifies a contrivance, made more or less in
-the form of an enormous umbrella, to break the fall from a balloon
-or other great height. The principle of the parachute was understood
-even before the invention of the balloon. In Eastern countries, in
-particular, where the umbrella or parasol has been in familiar use
-from earliest ages, parachutes were frequently employed by acrobats
-to enable them to jump safely from great elevations. In France also,
-at the end of the eighteenth century, a captive officer attempted to
-escape from a lofty prison by similar means.
-
-The aeronaut Blanchard was the first to construct a parachute for use
-from a balloon, his idea being that it might prove of service in the
-event of an accident while aloft. In 1785 he let down from a great
-height a parachute to which was attached a dog in a basket, which
-reached the ground gently and safely. After this M. Garnerin, the
-famous balloonist already referred to, hazarded a parachute descent
-in person, and his attempt being eminently satisfactory, parachute
-descents became fairly common.
-
-In August 1814 Mr. Cocking, an English gentleman of scientific
-tastes, read a paper on parachutes, suggesting an amendment in their
-shape and construction, before the Society of Arts, for which he was
-awarded a medal. His theory was never put into practice, however, till
-twenty-three years later, when, fired no doubt by the interest aroused
-by the famous Nassau voyage, he resolved to put his invention to the
-test.
-
-He accordingly constructed his parachute, which was of enormous size,
-of unwieldy weight, and in shape rather resembling an umbrella turned
-inside out. Despite the warning of friends that the untried machine was
-unwisely built, he insisted on making a descent with it, and succeeded
-in persuading Mr. Green to take him and his craft aloft attached to the
-Nassau balloon.
-
-[Illustration: COCKING’S PARACHUTE.]
-
-On the 27th of July 1837 they started from the Vauxhall Gardens, Mr.
-Green in the car accompanied by Mr. Edward Spencer (grandfather of
-the present well-known firm of aeronauts), his friend and frequent
-companion; Mr. Cocking seated in his machine slung below. A height of
-5000 feet was attained, and then Mr. Cocking, after bidding a hearty
-farewell to the others, pulled the rope which liberated his parachute
-from the balloon. Relieved from the enormous weight, the latter
-rushed upwards into the sky with terrific velocity, the gas pouring
-in volumes from the valves and almost suffocating the occupants of
-the car. Their position, indeed, for the time was one of the greatest
-danger, and they were thankful to reach the earth unharmed, which
-they eventually did. But their fate was happier far than that of the
-luckless Cocking, whose parachute, after swaying fearfully from side to
-side, at length utterly collapsed, and falling headlong, was, with its
-inventor, dashed to pieces.
-
-While Charles Green was making his famous ascents in England, an
-equally celebrated aeronaut, John Wise, was pursuing the same art in
-America. During a long and successful career, unhappily terminated
-by an accident, Wise made many experiments in the construction of
-balloons, their shape, size, varnish, material, and so forth. His
-results, which he carefully put together, have been of the greatest
-value to balloon manufacturers until the present time. In the course
-of his many voyages he met with various exciting adventures. On
-one occasion while aloft he saw before him a huge black cloud of
-particularly forbidding aspect. Entering this, he found himself in
-the heart of a terrific storm. His balloon was caught in a whirlwind,
-and set so violently spinning and swinging that he was sea-sick with
-the motion, while, at the same time, he felt himself half-suffocated
-and scarce able to breathe. Within the cloud the cold was intense;
-the ropes of the balloon became glazed with ice and snow till they
-resembled glass rods; hail fell around, and the gloom was so great that
-from the car the silk above became invisible. “A noise resembling the
-rushing of a thousand mill-dams, intermingled with a dismal moaning
-sound of wind, surrounded me in this terrible flight.” Wise adds,
-“Bright sunshine was just above the clouds;” but though he endeavoured
-to reach it by throwing out ballast, the balloon had no sooner begun
-to rise upwards than it was caught afresh by the storm and whirled
-down again. Neither was he able, by letting out gas, to escape this
-furious vortex from beneath; and for twenty minutes he was swept to and
-fro, and up and down in the cloud, before he could get clear of it, or
-regain any control over his balloon.
-
-On another occasion Wise made an exceedingly daring and bold
-experiment. Convinced of the power which, as has before been said,
-an empty balloon has of turning itself into a natural parachute, he
-determined to put the matter to the test, and deliberately to burst
-his balloon when at a great height. For this purpose he made a special
-balloon of very thin material, and fastened up the neck so that there
-was no vent for the gas. He then ascended fearlessly to a height of
-13,000 feet, where, through the expansion of the hydrogen with which it
-was filled, his balloon exploded. The gas escaped instantly, so that in
-ten seconds not a trace remained. The empty balloon at first descended
-with fearful rapidity, with a strange moaning sound as the air rushed
-through the network. Then the silk assuming parachute shape, the fall
-became less rapid, and finally the car, coming down in zigzags, turned
-upside down when close to the ground, and tossed Wise out into a field
-unhurt.
-
-It was John Wise’s great desire at one time to sail a balloon right
-across the Atlantic from America to Europe. Long study of the upper
-winds had convinced him that a regular current of air is always blowing
-steadily high aloft from west to east, and he believed that if an
-aeronaut could only keep his balloon in this upper current he might
-be carried across the ocean quicker, and with more ease and safety,
-than in the fastest steamship. Wise went so far as to work out all the
-details for this plan, the size of the balloon required, the ballast,
-provisions, and number of passengers; and only the want of sufficient
-money prevented him from actually making the attempt. Curiously
-enough, about the same time, Charles Green, in England, was, quite
-independently, working at the same idea, which he also believed, with
-proper equipment, to be quite feasible.
-
-
-
-
-CHAPTER IV
-
-THE BALLOON AS A SCIENTIFIC INSTRUMENT
-
-
-So far, in our history of aeronautics, we have referred to ballooning
-only as a sport or pastime for the amusement of spectators, and for
-the gratifying of a love of adventure. It is now time to speak of
-the practical uses of the balloon, and how it has been employed as a
-most valuable scientific instrument to teach us facts about the upper
-atmosphere, its nature and extent, the clouds, the winds and their
-ways, the travel of sounds, and many other things of which we should
-otherwise be ignorant.
-
-Before the invention of the balloon men were quite unaware of the
-nature of the air even a short distance above their heads. In those
-days high mountain climbing had not come into fashion, and when Pilâtre
-de Rozier made the first ascent, it was considered very doubtful
-whether he might be able to exist in the strange atmosphere aloft.
-Charles and Roberts were the first to make scientific observations
-from a balloon, for they took up a thermometer and barometer, and made
-certain rough records, as also did other early aeronauts. The most
-interesting purely scientific ascents of early days, however, were
-made in the autumn of 1804, from Paris, by Gay Lussac, a famous French
-philosopher. He took up with him all manner of instruments, among them
-a compass (to see if the needle behaved the same as on earth), an
-apparatus to test the electricity of the air, thermometers, barometers,
-and hygrometers, carefully exhausted flasks in which to bring down
-samples of the upper air, birds, and even insects and frogs, to see
-how great heights affected them. In his second voyage his balloon
-attained the enormous altitude of 23,000 feet, or more than four miles
-and a quarter, and nearly 2000 feet higher than the highest peaks
-of the Andes. At this tremendous height the temperature fell to far
-below freezing-point, and the aeronaut became extremely cold, though
-warmly clad; he also felt headache, a difficulty in breathing, and his
-throat became so parched that he could hardly swallow. Nevertheless,
-undismayed by the awfulness of his position, he continued making his
-observations, and eventually reached the ground in safety, and none the
-worse for his experience.
-
-Gay Lussac’s experiments at least proved that though the air becomes
-less and less dense as we ascend into it, it remains of the same nature
-and constitution. His second voyage also showed that the limit to which
-man could ascend aloft into the sky and yet live had not yet been
-reached. Almost sixty years later other scientific ascents threw fresh
-light on this point, and also continued the other investigations that
-Gay Lussac had commenced.
-
-Towards the close of Charles Green’s famous career, scientific men in
-England woke up to the fact that the use of a balloon as an important
-means for obtaining observations on meteorology and other matters had
-of late been very much neglected. The British Association took the
-matter up, and provided the money for four scientific ascents, which
-were made by Mr. Welsh of Kew Observatory, a trained observer. Green
-was the aeronaut chosen to accompany him, and the balloon used was
-none other than the great Nassau balloon, of whose many and wonderful
-adventures we have already spoken. Green was then nearly seventy years
-of age, but his skill as an aeronaut was as great as ever, and Welsh
-was able to obtain many valuable records. During the last voyage a
-height was attained almost as great as that reached by Gay Lussac, and
-both men found much difficulty in breathing. While at this elevation
-they suddenly noticed they were rapidly approaching the sea, and
-so were forced to make a very hasty descent, in which many of the
-instruments were broken.
-
-The veteran Green lived to a ripe old age, dying in 1870, aged
-eighty-five. When a very old man he still delighted in taking visitors
-to an outhouse where he kept the old Nassau balloon, now worn out and
-useless, and, handling it affectionately, would talk of its famous
-adventures and his own thousand ascents, during which he had never once
-met with serious accident or failure. After his death the old balloon
-passed into the hands of another equally famous man, who, after Green’s
-retirement, took his place as the most celebrated English aeronaut of
-the day.
-
-This was Henry Coxwell. He was the son of a naval officer, and was
-brought up to the profession of a dentist. But when a boy of only nine
-years old he watched, through his father’s telescope, a balloon ascent
-by Green, which so fired his imagination that henceforward balloons
-filled all his thoughts. As he grew older the fascination increased
-upon him. He would go long distances to see ascents or catch glimpses
-of balloons in the air, and he was fortunate enough to be present at
-the first launching of the great Nassau balloon. He did not get the
-chance of a voyage aloft, however, till he was twenty-five; but after
-this nothing could restrain his ardour, and, throwing his profession to
-the winds, he made ascent after ascent on all possible occasions.
-
-In one of his early voyages he met with what he describes as one of the
-most perilous descents in the whole history of ballooning. The occasion
-was an evening ascent made from the Vauxhall Gardens one autumn night
-of 1848. The aeronaut was a Mr. Gypson, and besides Mr. Coxwell there
-were two other passengers, one of whom was the well-known mountaineer
-and lecturer, Albert Smith. A number of fireworks which were to be
-displayed when aloft were slung on a framework forty feet below the car.
-
-[Illustration:
-
-  COXWELL.                GLAISHER.
-]
-
-The balloon rose high above London, and the party were amazed and
-delighted with the strange and lovely view of the great city by night,
-all sight of the houses being lost in the darkness, and the thousands
-of gas lamps, outlining the invisible streets and bridges, twinkling
-like stars in a blue-black sky. Coxwell was sitting, not in the car,
-but in the ring of the balloon, and presently, when they were about
-7000 feet above the town, he noticed that the silk, the mouth of which
-appears to have been fastened, was growing dangerously distended with
-the expanding gas. By his advice the valve was immediately pulled, but
-it was already too late; the balloon burst, the gas escaped with a
-noise like the escape of steam from an engine, the silk collapsed, and
-the balloon began to descend with appalling speed, the immense mass
-of loose silk surging and rustling frightfully overhead. Everything
-was immediately thrown out of the car to break the fall; but the wind
-still seemed to be rushing past at a fearful rate, and, to add to the
-horror of the aeronauts, they now came down through the remains of the
-discharged fireworks floating in the air. Little bits of burning cases
-and still smouldering touch-paper blew about them, and were caught in
-the rigging. These kindled into sparks, and there seemed every chance
-of the whole balloon catching alight. They were still a whole mile from
-the ground, and this distance they appear to have covered in less than
-two minutes. The house-tops seemed advancing up towards them with awful
-speed as they neared earth. In the end they were tossed out of the car
-along the ground, and it appeared a perfect marvel to them all that
-they escaped with only a severe shaking. This adventure did not in the
-least abate Coxwell’s ardour for ballooning, and exactly a week later
-he and Gypson successfully made the same ascent from the same place,
-and in the same balloon--and loaded with twice the number of fireworks!
-
-But Coxwell’s most celebrated voyage of all took place some years
-later, on the occasion of a scientific voyage made in company with Mr.
-James Glaisher. In 1862 the British Association determined to continue
-the balloon observations which Mr. Welsh had so successfully commenced,
-but this time on a larger scale. The observer was to be Mr. Glaisher
-of Greenwich Observatory, and Mr. Coxwell, who by this time had become
-a recognised aeronaut, undertook the management of the balloon. The
-first ascents were made in July and August. Mr. Glaisher took up a
-most elaborate and costly outfit of instruments, which, however, were
-badly damaged at the outset during a very rapid descent, made perforce
-to avoid falling in the “Wash.” On each occasion a height of over four
-miles was attained; but on the third voyage, which was in September, it
-was decided to try and reach yet greater altitudes.
-
-The balloon with its two passengers left Wolverhampton at 1 P.M.--the
-temperature on the ground being 59°. At about a mile high a dense cloud
-was entered, and the thermometer fell to 36°. In nineteen minutes a
-height of two miles was reached, and the air was at freezing-point.
-Six minutes later they were three miles aloft, with the thermometer
-still falling; and by the time four miles high was attained the mercury
-registered only 8°.
-
-In forty-seven minutes from the start five miles had been passed;
-and now the temperature was 2° below zero. Mr. Coxwell, who was up
-in the ring of the balloon and exerting himself over the management
-of it, found he was beginning to breathe with great difficulty. Mr.
-Glaisher, sitting quietly in the car watching his instruments, felt no
-inconvenience. More ballast was thrown out, and the balloon continued
-to rise apace; and soon Mr. Glaisher found his eyes growing strangely
-dim. He could not see to read his thermometer, or distinguish the hands
-of his watch. He noticed the mercury of the barometer, however, and
-saw that a height of 29,000 feet had been reached, and the balloon was
-still rising. What followed next had best be told in Mr. Glaisher’s own
-words:--
-
-“Shortly after I laid my arm upon the table, possessed of its full
-vigour, but on being desirous of using it, I found it useless. Trying
-to move the other arm, I found it powerless also. Then I tried to
-shake myself and succeeded, but I seemed to have no limbs. In looking
-at the barometer my head fell over my left shoulder. I struggled and
-shook my body again, but could not move my arms. Getting my head
-upright for an instant only, it fell on my right shoulder; then I
-fell backwards, my body resting against the side of the car, and my
-head on the edge. I dimly saw Mr. Coxwell and endeavoured to speak,
-but could not. In an instant intense darkness overcame me; but I was
-still conscious, with as active a brain as at the present moment while
-writing this. I thought I had been seized with asphyxia, and believed I
-should experience nothing more, as death would come unless we speedily
-descended. Other thoughts were entering my mind, when I suddenly became
-unconscious as on going to sleep.” Mr. Glaisher adds: “I cannot tell
-anything of the sense of hearing, as no sound reaches the ear to break
-the perfect stillness and silence of the regions between six and seven
-miles above the earth.”
-
-Meanwhile, as stated, Mr. Coxwell was up in the ring, trying to secure
-the valve-line, which had become twisted. To do this he had taken off
-a pair of thick gloves he had been wearing, and in the tremendous cold
-of that awful region the moment his bare hands rested on the metal
-of the ring they became frost-bitten and useless. Looking down, he
-saw Mr. Glaisher in a fainting condition, and called out to him, but
-received no answer. Thoroughly alarmed by this time, he tried to come
-down to his companion’s assistance; but now _his_ hands also had become
-lifeless, and he felt unconsciousness rapidly stealing over him.
-
-Quickly realising that death to both of them would speedily follow if
-the balloon continued to ascend, Mr. Coxwell now endeavoured to pull
-the valve-line; but he found it impossible to do so with his disabled
-hands. Fortunately he was a man of great bodily strength, as well as
-of iron nerve, and by a great effort he succeeded in catching the
-valve-line _in his teeth_. Then, putting his whole weight upon it, he
-managed to pull open the valve, and hold it until the balloon took a
-decided turn downwards. This saved them. As lower regions were reached,
-where the air was denser, Mr. Glaisher began to recover, and by the
-time they came to the ground neither of these two brave men were any
-the worse for their extraordinary experience.
-
-Neither Mr. Glaisher or Mr. Coxwell were able to note the exact
-elevation when they were at their greatest height; but from several
-circumstances they were convinced that it must have been 36,000 or
-37,000 feet, or fully _seven miles high_. Later aeronauts have been
-inclined to doubt if this surmise can be quite correct; but whether it
-is so or not is of no great moment, for this great balloon ascent will
-always stand unrivalled in the history of ballooning. Since that day
-nearly as great, or perhaps even greater, heights have been reached in
-balloons; but nowadays those who attempt to ascend to great elevations
-always provide themselves, before they start, with cylinders of
-compressed oxygen gas. Then when the atmosphere aloft becomes so thin
-and rare as to make breathing difficult, they begin to fill their lungs
-with the life-giving gas from the cylinders, and at once recover.
-
-After this perilous voyage Glaisher and Coxwell made several other
-scientific balloon ascents. They met with various experiences. On one
-occasion, during a lofty ascent, they lost sight of the earth above
-the clouds for a while, but, the mist suddenly breaking, they found
-themselves on the point of drifting out to sea. Not a moment was to be
-lost, and both men hung on to the valve-line until it cut their hands.
-The result was a tremendously rapid descent. The balloon fell four and
-a quarter miles in less than a quarter of an hour, covering the last
-two miles in only four minutes. They reached earth close to the shore,
-and were fortunate to escape with only a few bruises, though all the
-instruments were once more broken in the shock.
-
-Mr. Glaisher was able to make many interesting notes of the condition
-of the winds and clouds at high levels. He observed how frequently
-different currents of air are blowing aloft in different directions at
-the same time. These differing winds affect the shape of the clouds
-among which they blow. High above the ground he frequently met with a
-warm wind blowing constantly from the south-west; and he believed that
-it is largely due to this mild air-stream passing always overhead that
-England enjoys such much less rigorous winters than other countries
-that lie as far north of the equator. This mildness of our climate has
-long been attributed to the Gulf Stream, that warm current of the sea
-which sweeps up from the tropics past our shores. But it may well be
-that there is besides an “Aerial Gulf Stream,” as Mr. Glaisher calls
-it, blowing constantly above our heads, which also serves to warm the
-air, and make our winter climate mild and moist.
-
-One fact these experiments seemed to establish was, that when rain is
-falling from an overcast sky, there is always a higher layer of clouds
-overhanging the lower stratum. Nothing surprised Mr. Glaisher more than
-the extreme rapidity with which the whole sky, up to a vast height,
-could fill up entirely with clouds at the approach of a storm. Another
-point noted was that, when a wind is blowing, the upper portion of the
-current always travels faster than that next the ground. This is due,
-of course, to the obstacles the wind meets as it sweeps over the earth,
-and which check its onward progress.
-
-These, and very many other facts of the greatest interest to the
-meteorologist, were the outcome of Mr. Glaisher’s experiments. Later
-voyages of a similar kind have added greatly to our knowledge of the
-condition of the air, and it seems certain that in the future the
-balloon will be much more used by scientific men, and by its means they
-will be able to predict the weather more accurately and further ahead
-than at present, and learn many other things of which we are now in
-ignorance.
-
-
-
-
-CHAPTER V
-
-THE BALLOON IN WARFARE
-
-
-But there is another practical use for the balloon to which we must
-now refer, and that a most important one--its employment in war-time.
-It was not long after the invention of this ship of the skies that
-soldiers began to realise what a valuable aid it might be to them
-in times of battle, enabling them to see inside a camp, fort, or
-beleaguered city, or watch the enemy’s movements from afar off. The
-opportunity for first putting the matter to the test very soon arose.
-Within a very few years of the earliest balloon experiments in France
-there commenced in that very country the dreadful French Revolution,
-and soon the nation found itself at war with all the world, and forced
-to hold its own, alone, against the armies of Europe. This danger
-quickened the minds of all to the importance of making use of every
-possible means of defence in their power. It was suggested that the
-newly discovered balloon might be turned to account, and immediately a
-school for military ballooning was established near Paris. Fifty young
-military students were trained in the new art, and suitable balloons
-were provided. The value of their work was soon apparent. In June 1794
-was fought the battle of Fleurus, between the French and Austrians.
-Before the fight a balloon party had carefully observed the position of
-the Austrian forces, and, through the information they gave, the French
-were able to gain a speedy and decisive victory. In this way, and at
-this early stage, the value of the war balloon was at once established.
-
-Curiously enough, Napoleon would make no use of balloons in his
-campaigns, and even did away with the balloon school at Paris. The
-reason given for his prejudice is a curious one. At the time of his
-coronation a large, unmanned balloon, gaily decorated, and carrying
-thousands of lights, was sent up from Paris during the evening’s
-illuminations. It was a very beautiful object, and behaved splendidly,
-sailing away into the night, amidst great popular rejoicing, until it
-was lost to sight in the darkness. But at daybreak next morning it was
-seen approaching the city of Rome, where it presently arrived, actually
-hovering over St. Peter’s and the Vatican. Then, as if its mission were
-fulfilled, it settled to earth, and finally fell in Lake Bracciano. But
-as it fell it rent itself, and left a portion of the crown with which
-it was ornamented on the tomb of the Roman Emperor Nero. Napoleon,
-who was always a superstitious man, saw in this extraordinary voyage
-some dreadful forecast of his own fate. He was much disturbed, and
-forebade the matter ever to be mentioned in his presence; nor would he
-henceforward have any more to do with balloons.
-
-[Illustration: AMERICAN WAR BALLOON.]
-
-Military balloons were used by the French again, however, during
-their war in Africa in 1830. The Austrians also used them in 1849,
-and it is said the Russians had them at the siege of Sebastopol in
-the Crimean War. A Montgolfier balloon was made use of by the French
-in 1862 at the battle of Solferino; and the Americans also employed
-balloons during the Civil War a year later. The American war balloons
-were comparatively small ones, inflated with hydrogen. The hydrogen
-was manufactured in the way already described, by pouring dilute
-sulphuric acid upon scrap-iron. For making the gas upon the field
-two large tanks of wood called “generators” were used. In these the
-water and scrap-iron were placed and the acid poured upon them, the
-gas produced being carried to the balloon through pipes, passing first
-through vessels filled with lime-water to cool and purify it. When on
-the march four waggons were sufficient to carry the whole apparatus.
-The inflation, which took some time, was made as close to the scene of
-action as was considered safe, and when the balloon was once full a
-party of men could easily tow it about to where it was needed.
-
-But the time when the balloon was most largely and most usefully used
-in time of war was during the Siege of Paris. In the month of September
-1870, during the Franco-Prussian War, Paris was closely invested by
-the Prussian forces, and for eighteen long weeks lay besieged and cut
-off from all the rest of the world. No communication with the city
-was possible either by road, river, rail, or telegraph, nor could the
-inhabitants convey tidings of their plight save by one means alone.
-Only the passage of the air was open to them.
-
-Quite at the beginning of the siege it occurred to the Parisians that
-they might use balloons to escape from the beleaguered town, and pass
-over the heads of the enemy to safety beyond; and inquiry was at once
-made to discover what aeronautical resources were at their command.
-
-It was soon found that with only one or two exceptions the balloons
-actually in existence within the walls were unserviceable or unsuitable
-for the work on hand, being mostly old ones which had been laid aside
-as worthless. One lucky discovery was, however, made. Two professional
-aeronauts, of well-proved experience and skill, were in Paris at the
-time. These were MM. Godard and Yon, both of whom had been in London
-only a short time before in connection with a huge captive balloon
-which was then being exhibited there. They at once received orders to
-establish two balloon factories, and begin making a large number of
-balloons as quickly as possible. For their workshops they were given
-the use of two great railway stations, then standing idle and deserted.
-No better places for the purpose could be imagined, for under the great
-glass roofs there was plenty of space, and the work went on apace.
-
-As the balloons were intended to make only one journey each, plain
-white or coloured calico (of which there was plenty in the city),
-covered with quick-drying varnish, was considered good enough for their
-material. Hundreds of men and women were employed at the two factories;
-and altogether some sixty balloons were turned out during the siege.
-Their management was entrusted to sailors, who, of all men, seemed
-most fitted for the work. The only previous training that could be
-given them was to sling them up to the roof of the railway stations in
-a balloon car, and there make them go through the actions of throwing
-out ballast, dropping the anchor, and pulling the valve-line. This was,
-of course, very like learning to swim on dry land; nevertheless, these
-amateurs made, on the whole, very fair aeronauts.
-
-But before the first of the new balloons was ready experiments were
-already being made with the few old balloons then in Paris. Two were
-moored captive at different ends of the town to act as observation
-stations from whence the enemy’s movements could be watched. Captive
-ascents were made in them every few hours. Meanwhile M. Duruof, a
-professional aeronaut, made his escape from the city in an old and
-unskyworthy balloon called “Le Neptune,” descending safely outside the
-enemy’s lines, while another equally successful voyage was made with
-two small balloons fastened together.
-
-And then, as soon as the possibility of leaving Paris by this means was
-fully proved, an important new development arose. So far, as was shown,
-tidings of the besieged city could be conveyed to the outside world;
-but how was news from without to reach those imprisoned within? The
-problem was presently solved in a most ingenious way.
-
-There was in Paris, when the siege commenced, a society or club of
-pigeon-fanciers who were specially interested in the breeding and
-training of “carrier” or “homing” pigeons. The leaders of this club
-now came forward and suggested to the authorities that, with the aid
-of the balloons, their birds might be turned to practical account
-as letter-carriers. The idea was at once taken up, and henceforward
-every balloon that sailed out of Paris contained not only letters and
-despatches, but also a number of properly trained pigeons, which, when
-liberated, would find their way back to their homes within the walls of
-the besieged city.
-
-When the pigeons had been safely brought out of Paris, and fallen
-into friendly hands beyond the Prussian forces, there were attached
-to the tail feathers of each of them goose quills, about two inches
-long, fastened on by a silken thread or thin wire. Inside these
-were tiny scraps of photographic film, not much larger than postage
-stamps, upon which a large number of messages had been photographed by
-microscopic photography. So skilfully was this done that each scrap of
-film could contain 2500 messages of twenty words each. A bird might
-easily carry a dozen of these films, for the weight was always less
-than one gramme, or 15½ grains. One bird, in fact, arrived in Paris
-on the 3rd of February carrying eighteen films, containing altogether
-40,000 messages. To avoid accidents, several copies of the same film
-were made, and attached to different birds. When any of the pigeons
-arrived in Paris their despatches were enlarged and thrown on a screen
-by a magic-lantern, then copied and sent to those for whom they were
-intended.
-
-This system of balloon and pigeon post went on during the whole siege.
-Between sixty and seventy balloons left the city, carrying altogether
-nearly 200 people, and two and a half million letters, weighing in
-all about ten tons. The greater number of these arrived in safety,
-while the return journeys, accomplished by the birds, were scarcely
-less successful. The weather was very unfavourable during most of the
-time, and cold and fogs prevented many pigeons from making their way
-back to Paris. Of 360 birds brought safely out of the city by balloon
-only about 60 returned, but these had carried between them some 100,000
-messages.
-
-Of the balloons themselves two, each with its luckless aeronaut, were
-blown out to sea and never heard of more. Two sailed into Germany and
-were captured by the enemy, three more came down too soon and fell into
-the hands of the besieging army near Paris, and one did not even get
-as far as the Prussian lines. Others experienced accidents and rough
-landings in which their passengers were more or less injured. Moreover,
-each balloon which sailed by day from the city became at once a mark
-for the enemy’s fire; so much so that before long it became necessary
-to make all the ascents by night, under cover of darkness.
-
-They were brave men indeed who dared face the perils of a night voyage
-in an untried balloon, manned by an unskilled pilot, and exposed to
-the fire of the enemy, into whose hands they ran the greatest risk
-of falling. It is small wonder there was much excitement in Paris
-when it became known that the first of the new balloons made during
-the siege was to take away no less a personage than M. Gambetta, the
-great statesman, who was at the time, and for long after, the leading
-man in France. He made his escape by balloon on the 7th of October,
-accompanied by his secretary and an aeronaut, and managed to reach a
-safe haven, though not before they had been vigorously fired at by shot
-and shell, and M. Gambetta himself had actually been grazed on the hand
-by a bullet.
-
-Another distinguished man who hazarded the same perilous feat, though
-for a very different reason, was M. Janssen, a famous astronomer. On
-the 22nd of December of that year there was to take place an important
-total eclipse of the sun, which would be visible in Spain and Algeria.
-It had long been M. Janssen’s intention to observe this eclipse, and
-for this purpose he had prepared a special telescope and apparatus; but
-when the time drew near he found himself and his instruments shut up in
-besieged Paris, with no possible means of escape except the dangerous
-and desperate hazard of a voyage by sky.
-
-But so great was the astronomer’s enthusiasm for his work, that he
-resolved to brave even this risk. Taking the essential parts of his
-telescope with him, and, as aeronaut, an active young sailor, he set
-sail in the darkness of a winter’s morning, long before dawn, passed
-safely over the enemy’s lines, and continued the voyage till nearly
-mid-day, when they sighted the sea, and came down near the mouth of the
-river Loire, having travelled 300 miles in little more than five hours.
-Neither Janssen or his telescope were injured in the descent, though
-the wind was high at the time; and both reached Algeria in time for the
-eclipse. It must have been a most bitter disappointment to the ardent
-astronomer, after all his exertions, that when the great day arrived
-the sun was hidden by clouds, and he was unable to observe the sight
-for which he had risked so much.
-
-Since the Franco-Prussian war, military ballooning has been largely
-developed, and now all great armies possess their properly equipped
-and trained balloon corps. The balloons in use in the British Army at
-the present day are made, not of silk, but of gold-beater’s skin, a
-very thin, but extremely tough membrane prepared from the insides of
-oxen. This is, of course, much stronger and more durable than ordinary
-balloon fabric, but much more expensive. The balloons are comparatively
-small ones, of 10,000 feet capacity, and are inflated with hydrogen.
-The hydrogen is now no longer made upon the field, but is manufactured
-in special factories, and carried compressed in large steel cylinders.
-By this means the time occupied in filling the balloon is much reduced,
-but the weight of the cylinders is very great. As will be remembered,
-balloons were made of considerable use during the late Boer War. At the
-siege of Ladysmith they were thought of much value in directing the
-fire of the British Artillery, and again at Spion Kop and Magersfontein
-are said to have done good service.
-
-So far we have shown of what use balloons may be in times of peace and
-war. Every year sees fresh improvements and developments in balloons
-for military purposes and in those employed for making meteorological
-and other similar observations; and there is no doubt that great
-advances may shortly be expected in both these directions. But there
-is yet another and totally different science to which the balloon may
-lend its aid, and help greatly to add to our knowledge; and this is the
-science of geography, or the study of the earth’s surface.
-
-One of the earliest ideas suggested by Montgolfier’s invention was that
-the balloon might be turned to practical account in the exploring of
-unknown and inaccessible tracts of the world. It was suggested that
-in a balloon men might sail over and survey country that they were
-not able to reach in any other way. Deserts could be crossed in this
-fashion, forests and mountain ranges, and even the desolate ice-tracts
-of the North and South Poles.
-
-All this is, in truth, perfectly possible, and another day may be
-accomplished; but at present great difficulties and dangers stand in
-the way of exploring by balloon, and up to the present time, with one
-great exception, no special attempt has been made. It has already been
-mentioned that both Wise and Green wished to cross the Atlantic by sky,
-and indeed at the present moment plans are actually being made on the
-Continent for a similar voyage. This, however, can scarcely be called
-exploring. Other suggestions which may presently be put to the test are
-the crossing of the Sahara, and also of another great desert in Central
-Arabia, into which no white man has ever succeeded in penetrating.
-Recent expeditions both to the North and South Poles have also taken
-with them balloons to be used captive for the observation of the state
-of the ice ahead, and for obtaining wide views around.
-
-The one great attempt at exploring by balloon which has so far been
-made has, unfortunately, met with hopeless and terrible disaster--this
-was the ill-fated voyage to the North Pole of Andrée and his
-companions. The idea of reaching the Pole by balloon was first proposed
-many years ago, and both French and English aeronauts at different
-times have made suggestions as to the best way in which it might be
-accomplished. Nothing, however, was attempted until about the year
-1894, when M. S. A. Andrée, a well-known Swedish balloonist, who had
-already met with exciting experiences in the air, made up his mind
-actually to risk the venture.
-
-His plan was to take a suitable balloon, and the apparatus for
-inflating it, to a place as far north as a ship could safely go, then
-to fill the balloon and wait for a favourable wind which should carry
-him right over the Pole and beyond until inhabited country was reached.
-By the summer of 1896 all his preparations were complete. His balloon
-was an enormous one, capable of holding 162,000 cubic feet of gas, and
-was fitted with a rudder sail and a long trail-rope, by means of which
-Andrée hoped to be able to some extent to steer his course across the
-ice. Two companions were to accompany him on his voyage, and on June
-7th the party embarked with all their apparatus, and were conveyed to
-Spitzbergen.
-
-They landed at Dane’s Island, where their first work was to build
-themselves a shed. They then got their gas-making apparatus into order,
-and filled the balloon, and by the 27th of July were all ready for a
-start. But the wind was contrary, and day after day they waited in vain
-for a change, until at last the captain of the ship which had brought
-them warned them they would be frozen in for the winter unless they
-returned without delay. Very reluctantly, therefore, they abandoned
-their venture for that year, and went home, leaving behind them the
-shed and gas-generator for another occasion.
-
-The winter passed, and by the end of next May they were back again at
-Dane’s Island. Their shed and apparatus had suffered damage during
-their absence, and had to be repaired, and their preparations were
-not complete until the end of June. But again the wind was contrary,
-and for three weeks more they waited impatiently. All this while the
-balloon remained inflated, and by the long delay must have lost a
-considerable amount of its buoyancy. At last the wind changed, and
-though it was not exactly in the direction they wished, being a little
-west of south, instead of due south, Andrée felt he could wait no
-longer, and at half-past two in the afternoon of July 11th set sail,
-with his two friends, on his daring voyage.
-
-What followed is soon told. Eleven days later one of the carrier
-pigeons taken by Andrée in his balloon was picked up by a fishing-boat
-off Spitzbergen. Fastened to it was the following message:--“July 13th,
-12.30 P.M. 82° 2´ north lat., 15° 5´ east long. Good journey eastward.
-All goes well on board.--ANDRÉE.”
-
-This was the latest news ever heard of the ill-fated voyagers. Later on
-two of Andrée’s buoys, thrown out from the balloon, were found; but the
-messages these contained were dated on the evening of July 11th, only
-a few hours after the start. If the date of the first found message
-can be relied on, it would seem that after forty-eight hours Andrée’s
-balloon was still sailing well, and he had already accomplished the
-longest voyage aloft ever made.
-
-Of his subsequent fate, and that of his companions, nothing is known.
-Search expeditions have failed to find any trace of them or of the
-balloon, and the many rumours received have been proved to be false.
-There can be no possible reason to doubt that these brave men perished
-in their daring attempt, and that their bones lie in the Arctic Sea or
-in the waste of ice and snow that surrounds the Pole.
-
-
-
-
-CHAPTER VI
-
-THE AIRSHIP
-
-
-So far in our story we have traced the origin and progress of the
-balloon, showing how from small beginnings it has grown to be an
-important invention, of great use to the scientific observer, the
-soldier, and the explorer, and the means of teaching us much fresh
-knowledge.
-
-But in spite of the high hopes of early aeronauts, and the extravagant
-prophecies made when the first balloons ascended into the sky, it has
-long been evident that the balloon alone has not solved the problem
-of human flight or accomplished the conquest of the air. An ordinary
-balloon is, in fact, nothing more than a mere lifting machine, no more
-capable of sailing the sky, in the proper sense of the word, than a
-cork floating in the water is capable of sailing the sea. It has no
-movement of its own, but drifts simply at the mercy of the wind, and
-quite beyond control. By the discharge of ballast, or by the letting
-out of gas, the aeronaut can indeed cause it to rise or sink at
-pleasure, and sometimes when two currents of air are blowing aloft in
-different directions at the same time he may, by passing from one to
-the other, “tack” his balloon to some extent across the sky. Otherwise
-he has no power of guiding or directing it in the least degree, and
-should he lose sight of the earth above the clouds, has even no method
-of telling in which direction he is travelling.
-
-Early inventors thought they would be able to steer balloons by means
-of sails, like a boat, but they soon found that this was impossible.
-The effect of hoisting a sail at the side of a balloon was merely to
-swing the balloon round until the sail was in front, while meantime it
-continued its course unaltered. The use of a rudder and other means
-were also tried, but without success; nor can such methods ever hope to
-succeed so long as a balloon floats in the air at the same pace as the
-wind that carries it forward. A balloon travelling with the wind may be
-compared to a boat drifting idly with the tide. As long as she drifts
-she refuses to answer her rudder, which swings idly. But presently the
-boatman hoists a sail, and the wind carries the boat onwards faster
-than the tide, and then immediately the rudder comes into action. Or
-should there be no wind, he may accomplish the same thing by dragging
-an anchor or other weight in the water, and so slowing his boat down
-until it moves slower than the current; he will then again find that
-his boat will answer her helm.
-
-To steer his course in a balloon, therefore, the aeronaut must so
-arrange that he is travelling faster or slower than the wind in which
-he finds himself. To travel faster, he must employ some sort of engine
-or motor to drive his craft onwards. To travel slower, he must trail
-something along the ground beneath to act as a drag.
-
-Part of the equipment of every balloon is a long trail-rope, which,
-when the balloon is aloft, hangs some 300 feet below the car. The
-object of this rope is to break the force of the fall when the balloon
-comes down to the earth at the end of the voyage. In the greater number
-of cases a balloon, in its final swoop to the ground, falls the last
-few hundred feet with considerable, and often uncomfortable, speed. But
-when provided with a trail-rope, as it descends more and more of the
-heavy rope will lie along the ground, and so lighten the weight of the
-balloon, and lessen the shock of falling.
-
-If then a trail-rope were used of such length that it would sweep along
-the ground while the balloon was flying in the air, the effect would
-be to put a drag or brake on the balloon, and so render it capable of
-being steered to some extent with a sail; and this is what has actually
-been done in all attempts of the kind. But since a long rope dragging
-rapidly across the country is a very dangerous object, capable of doing
-great damage, and also liable to catch in trees and other obstacles,
-such experiments can only be tried with safety over the sea, or, as in
-the case of Andrée’s voyage, over desert or uninhabited country.
-
-The best way of steering a balloon, therefore, is to provide it with
-some mechanical power which shall urge it onwards at a greater speed
-than the wind; and when this is done, it has ceased to be a balloon in
-the popular sense of the word, and has become an “airship.”
-
-There is a great deal of confusion between the terms “airship,” and
-“flying machine,” and the two words are often considered as meaning
-the same thing. But while, strictly speaking, neither word in itself
-has any very definite meaning, it is gradually becoming more general
-to apply them to two widely different objects. According to this plan,
-although both names stand for an aerial vessel capable of travelling
-in the sky by its own motion, an airship is a machine supported in the
-air by reason of its buoyancy, while a flying machine is kept aloft
-only by virtue of its onward movement.
-
-In other words, part of the construction of an airship consists of a
-bag or balloon, filled with gas or hot air, which causes the whole to
-rise and maintain its position in the air. This balloon part is quite
-independent of the machinery which drives the airship forward, and
-indeed if the engine ceases working, the vessel becomes nothing more
-than an ordinary balloon in its nature, and will behave like one. An
-airship, therefore, is in principle an apparatus lighter than air.
-
-A flying machine, on the contrary, is heavier than air, and maintains
-its position aloft merely by the power it obtains from its engines,
-assisted by its special construction. The inventors of flying machines
-take as their analogy the flight of birds. Birds are creatures
-heavier than air, which yet manage to rise and fly by reason of the
-strength and construction of their wings. In the same way the heavy
-flying machine essays to fly by the power of its machinery. And, as
-a bird aloft, if its wings became disabled, would instantly drop
-towards earth, so a flying machine would immediately commence to fall
-if its engine stopped or ceased to move with sufficient power. The
-airship and the flying machine, therefore, may be regarded as rival
-aerial vessels, and their inventors and advocates, sometimes known
-as “lighter-than-air-ites” and “heavier-than-air-ites,” though both
-working for the same end, are endeavouring to accomplish their aim by
-widely different methods.
-
-Up to the present day the airship--to which we will first turn our
-attention--has been much more largely and successfully experimented
-with than the flying machine. It is, however, the opinion of many,
-including the great authority Sir Hiram Maxim, that in the future the
-flying machine will become the more important invention of the two.
-“In all Nature,” says Sir Hiram, “we do not find a single balloon. All
-Nature’s flying machines are heavier than air.” And from this he argues
-that, as Nature is ever our best guide and example, a flying machine
-heavier than air will be in the end most likely to succeed.
-
-One of the earliest airships which achieved any success was invented
-by a Frenchman, M. Giffard, about the year 1852. He made his balloon
-of an elongated or cigar shape, a form adopted by airship inventors
-as offering less resistance to the air than the ordinary globular or
-pear shape. To this balloon, which was 104 feet long and 39 feet in
-diameter, he attached a steam-engine of three-horse power, weighing 462
-lbs. and working a screw-propeller, which, by its rapid revolutions,
-urged the balloon onwards through the air, even as the screw of a
-steamship urges the vessel through the water. With this apparatus he
-succeeded on one occasion, for a very short while, in obtaining a speed
-of six and a half miles an hour. Twenty years later another Frenchman,
-M. Dupuy de Lôme, constructed another airship; but fearing to place an
-engine so near the gas of his balloon, he used the strength of eight
-men to work his screw. This was a very wasteful mode of supplying
-energy, for the weight of the men was very great in proportion to
-their strength, and this machine, during its trial, did not attain as
-great a speed as Giffard’s. Twelve years after a third Frenchman, M.
-Tissandier, took up the same experiments. His elongated balloon was
-smaller than the two previous, and his engine was an electric motor of
-one and a half horse-power. On one occasion a speed of nearly eight
-miles an hour was attained.
-
-By this time the French Government had become interested in the work,
-and provided money to continue investigations. The result of this was
-that in 1885 two officers of the French army, Captains Renard and
-Krebs, brought out by far the most successful airship yet constructed.
-It was 165 feet long, 27 feet in diameter, and was driven by an
-electric motor of nine horse-power. That this machine proved itself
-perfectly capable of being guided in the air is amply shown by the
-fact that it returned to its shed five times out of the seven on which
-it was publicly taken out. It also attained a speed of fourteen miles
-an hour, and indeed it would seem that Renard and Krebs, although their
-names are now almost forgotten, accomplished nearly as great things
-twenty years ago as the popular airship inventors of the present day.
-
-One of the greatest difficulties with which early inventors had to
-contend was the enormous weight of their engines. The machinery they
-were obliged to use to drive their airships through the air weighed
-more than their balloons, unless made of unwieldy size, had power
-to lift. The same difficulty indeed exists at the present time,
-though to a much less degree. Of late years, and especially since
-the introduction of the motor-car, great progress has been made in
-the construction of light but powerful engines, or motors, and the
-employment of petrol vapour instead of coal or oil has very greatly
-lessened the weight of the fuel which has to be carried.
-
-In consequence of this improvement many airships have recently been
-made which have met with varying success, and many more are at the
-present moment in process of construction. Among the host of inventors,
-whose names it would here be impossible even to mention, three stand
-out from the rest in special prominence--Zeppelin, Santos Dumont, and
-Stanley Spencer--all three the inventors of airships which have, by
-actual experience, proved their power of steering a course across the
-sky.
-
-Of these rival airships, by far the largest and most elaborate was
-that built by the first named, Count Zeppelin, a distinguished veteran
-soldier of the German army. For many years he had spent his time and
-fortune in making experiments in aerial navigation, and at length in
-1900, having formed a company and collected a large sum of money for
-the purpose, he produced an enormous airship, which, from its size,
-has been compared to a man-of-war. In shape Count Zeppelin’s invention
-resembled a gigantic cigar, 420 feet in length, pointed at both ends.
-The framework was made of the specially light metal aluminium, covered
-over with silk, and though from outside it looked all in one piece,
-within it was divided into seventeen compartments, each holding a
-separate balloon made of oiled silk and absolutely gas-tight. The
-object of this was to prevent the tendency the gas has to collect all
-at one end as the ship forces its way through the air. These balloons
-were filled with pure hydrogen, the cost of the inflation alone being
-£500. Beneath was slung a long gangway, 346 feet in length, with two
-cars, also made of aluminium, attached to it. In these cars were placed
-two motor-engines of sixteen horse power each, driven by benzine, and
-working a pair of screw-propellers attached to the balloon. A steering
-apparatus was placed at each end, and the whole machine, with five
-passengers, weighed about eleven tons.
-
-[Illustration: ZEPPELIN’S AIRSHIP OVER LAKE CONSTANCE.]
-
-To lessen the effects of a possible fall, the experiments were carried
-out over water, and the great airship was housed in a shed built on
-Lake Constance. The cost of this shed alone was enormous, for it was
-elaborately constructed on pontoons, and anchored in such a way that
-it could be turned round to allow the airship to be liberated from it
-in the best direction to suit the wind. The trial trip was made one
-evening in June 1900, when a very light wind was blowing. The great
-machine rose into the air, carrying Zeppelin and four companions to a
-height of 800 feet. The steering apparatus then being put into action,
-it circled round and faced the wind, remained stationary for a short
-while, and then sank gracefully and gently upon the water. A few days
-later another and more successful trial was made. The wind at the time
-was blowing at sixteen miles an hour, but in spite of this the airship
-slowly steered its course against the wind for three and a half miles,
-when, one of the rudders breaking, it was obliged to come down. On
-one or two other occasions also it made successful voyages, proving
-itself to be perfectly manageable and capable of being steered on an
-absolutely calm day. The expense of the experiments was, however,
-tremendous; money fell short, and the great machine, the result of many
-years’ labour and thought, has since been abandoned and broken up.
-
-[Illustration: SANTOS DUMONT’S AIRSHIP.]
-
-A far happier fate has so far attended the efforts of the brave young
-Brazilian, Albert Santos Dumont. The wealthy son of a successful
-coffee-planter, he had always from his boyhood been keenly interested
-in aeronautics, and, coming to Paris, he constructed in 1898 an
-airship of a somewhat novel kind. His balloon was cigar-shaped, 83
-feet long, and holding 6500 feet of pure hydrogen. Attached to the
-balloon, and working a propeller, was a small motor like those used
-for motor cycles, and astride of this Santos Dumont rode, bicycle
-fashion, steering his course with a rudder. In this ingenious machine
-he ascended from the Botanical Gardens in Paris and circled several
-times round the large captive balloon then moored there, after which
-he made a number of bold sweeps in the air, until an accident occurred
-to his engine and he came precipitately to the ground. Though shaken he
-was by no means discouraged, and declared his intention of continuing
-his experiments until he should have invented an airship which, in his
-own words, should be “not a mere plaything, but a practical invention,
-capable of being applied in a thoroughly useful fashion.”
-
-Accordingly he constructed one machine after another, gaining fresh
-knowledge by each new experience, and profiting by the accidents and
-failures which continually beset him in his dangerous and daring work.
-Before long also he received an additional incentive to his labours.
-Early in the year of 1900 it was announced by the Paris Aero Club, a
-society of Frenchmen interested in aeronautical matters, that one of
-its members, M. Deutsch, had offered a prize of 100,000 francs--about
-£4000--to the man who, starting from the Aero Club grounds at
-Longchamps in a balloon or flying machine, should steer his course
-right round the Eiffel Tower and back to the starting-place--a distance
-of three and a half miles--within half an hour. If the prize were not
-won within a certain time, his offer was to be withdrawn, and meanwhile
-he promised a certain sum of money every year for the encouragement of
-aeronautical experiments.
-
-The offer of this reward set many inventors to work upon the
-construction of various aerial vessels of all kinds, but from the
-beginning Santos Dumont was well to the fore. By the middle of 1901
-he had completed what was his sixth airship--a cigar-shaped balloon,
-100 feet long, its propeller worked by a motor-car engine of fifteen
-horse-power--and with it, on July 15th, he made a splendid attempt
-for the prize. Starting from the Club grounds, he reached the Eiffel
-Tower in thirteen minutes, and, circling round it, started back on
-his homeward journey. But this time his voyage was against the wind,
-which was really too strong for the success of his experiment; part
-of his engine broke down, and the balance of the vessel became upset;
-and although he managed to fight his way back to the starting point,
-he arrived eleven minutes behind time, and so failed to fulfil M.
-Deutsch’s conditions.
-
-Again, on the 9th of August, having in the meantime made further
-trials with his machine, he embarked on another attempt to carry off
-the prize. He chose the early hours of the morning, starting shortly
-after six from the Club grounds, where only a few friends, among them
-the keenly interested M. Deutsch, were present. The day was apparently
-perfect, and when, after the lapse of five minutes only, he had reached
-the Tower and swung gracefully round it, every one was convinced that
-this time the prize was certain to be won. But the homeward journey
-was all against the wind, which was blowing more powerfully aloft than
-on the ground, and suddenly the onlookers were horrified to see the
-fore part of the balloon double right back. By so doing the silken
-envelope became torn and the gas began escaping. Rapidly the balloon
-appeared to wither up and shrink together. The engine was seen still
-to be working, though no progress was now being made. Then the whole
-apparatus collapsed utterly, and fell with sickening speed upon the
-house-tops.
-
-Deutsch and his companions watched the fall horror-struck, and jumping
-into their motorcars hurried to the spot, convinced that a fatal
-accident must have occurred. But they found that, although the airship
-was smashed to pieces, its plucky inventor had almost miraculously
-escaped unhurt. The wrecked machine had fallen upon the roof of a house
-in such a way that the keel had caught upon a corner, and the car,
-which was fastened to it, hung at a perilous angle down the side of
-a wall. Fortunately Dumont was secured to his car by a leather belt,
-and he managed to hold on, though in considerable danger lest the keel
-should break and let him fall, until rescued by a fireman with a rope.
-His machine was hopelessly ruined; but when asked what he intended to
-do next he merely answered: “Begin again. Only a little patience is
-necessary.”
-
-A new machine, “Santos Dumont VII.,” was ready in less than a month,
-and tested on the 6th of September. It behaved beautifully, and all
-went well until the trail-rope caught in a tree. In liberating it the
-framework became bent, and the airship was being towed back to its
-shed when a sudden gust of wind tore it away from those who held it.
-It immediately rose into the air, and on Dumont opening the valve the
-whole collapsed and fell to earth with a great shock. Again the lucky
-inventor escaped unhurt, though owning this time that he had “felt
-really frightened.” Ten days later, in another trial, the airship came
-in contact with some trees, which pierced the silk and let out the gas,
-so that it fell precipitately twenty feet. But the aeronaut appeared to
-bear a charmed life, for once more he was none the worse for the fall.
-Several other unsuccessful trials followed, and then, on the 19th of
-October, Santos Dumont made another grand attempt for the prize.
-
-Starting with the wind in his favour, his machine travelled at the
-rate of thirty miles an hour, and rounded the Eiffel Tower in nine
-minutes. But in the journey homewards the airship had to struggle with
-a wind blowing at thirteen miles an hour. In endeavouring to “tack”
-the machinery became upset, and Dumont, leaving his car, crawled
-along the framework to the motor, which he succeeded in putting in
-order again. But this naturally occasioned some delay, and though he
-accomplished the rest of his journey in eight minutes, the Committee at
-first decided he had exceeded the allotted time by forty seconds, and
-so had lost the prize. Great popular indignation was excited by this
-decision, for public sympathy was all with the daring and persistent
-young Brazilian, and M. Deutsch himself was most anxious he should
-receive the award. Finally, he was considered to have fairly won it,
-and the money, which he afterwards divided among the poor, was formally
-presented to him.
-
-Early in the next year Santos Dumont continued his experiments at
-Monaco, and on one occasion came down in the sea, and had to be rescued
-in the Prince of Monaco’s own steam yacht. After this there was a talk
-of further voyages being made in England, but the project came to
-nothing, and although Dumont made other ascents in Paris in the summer
-of 1903, he does not appear to have eclipsed his previous record.
-
-But although Santos Dumont came through all his accidents and perils
-so happily, his example led to terrible disaster on the part of a
-luckless imitator. In 1902 M. Severo, also a Brazilian, was fired with
-a desire to share his fellow-countryman’s fame, and he also constructed
-an airship with which he proposed to do great things. But while Dumont
-was a skilled aeronaut of large experience, as well as a mechanician,
-Severo knew scarcely anything about the subject, and had only been
-aloft once or twice. Proof of his ignorance is shown by the fact that
-his motor-engine was placed only a few feet away from the valve through
-which the gas from the balloon would escape.
-
-The ascent took place in Paris early in the morning of the 12th of May,
-and was witnessed, unhappily, by Severo’s wife and son. Bidding them
-good-bye, he stepped into the car, and, accompanied by an assistant,
-rose above the town. The balloon rose steadily, and appeared to steer
-well. Then Severo commenced to throw out ballast, and when the airship
-had risen 2000 feet it was suddenly seen to burst into a sheet of
-flame. A terrible explosion followed, and then the whole fell to the
-ground a hopeless wreck, and the two men were dashed to pieces in
-the fall. It is believed that this dreadful disaster, which recalls
-the fate of Pilâtre de Rozier, was caused by the hydrogen gas, which
-escaped from the valve during the rapid rise, becoming ignited by the
-engine, which, as has been said, was placed dangerously close.
-
-Nor was this, unhappily, the only accident of the kind in Paris during
-the year. Only five months later, on the 13th of October, Baron Bradsky
-ascended with an assistant in a large airship of his own invention.
-Through faulty construction, the steel wires which fastened the car to
-the balloon broke, the two became separated, the car fell, and its
-occupants were killed on the spot.
-
-So far, the credit of the only English airship which has yet flown
-rests with Mr. Stanley Spencer, the well-known aeronaut. Mr. Spencer
-comes of a race of aeronauts. His grandfather, Edward Spencer, was the
-great friend and colleague of Charles Green, and shared with him some
-of his chief ballooning adventures, notably the terrible voyage when
-Cocking lost his life. Green stood godfather to Edward Spencer’s son,
-who was christened Charles Green after him. He also grew up to be an
-aeronaut, and made several inventions and improvements relating to
-balloons and flying machines. His love of ballooning, inherited from
-his father, has been passed on to his children, and his three eldest
-sons, Percival, Arthur, and Stanley, are chief among British aeronauts,
-and indeed have practically the monopoly of professional ballooning
-and balloon manufacture in Great Britain. Nor have they confined
-themselves to this country. All three have taken their balloons and
-parachutes to distant parts of the world, and among their many hundreds
-of ascents, both abroad and at home, have met with all manner of
-exciting and perilous adventures, though never yet with serious mishap.
-Their knowledge of practical aeronautics, then, is unrivalled, and Mr.
-Stanley Spencer had the experience of three generations to guide him
-when, in 1902, he set to work to build an airship which he had long
-been devising.
-
-His first machine was a comparatively small one, capable only of
-lifting a light man. It took the usual form of a cigar-shaped balloon,
-the framework of which was built of bamboo, driven forward by a
-screw-propeller worked by a small petrol engine. Warned by the fate of
-the unfortunate Severo, Mr. Spencer placed his engine far away from the
-valve. Profiting also by Santos Dumont’s experience, he constructed
-his balloon in such a manner that, should it become torn and the gas
-escape, the empty silk would collapse into the form of a parachute and
-break the fall. Furthermore, there was an arrangement by which, while
-aloft, ordinary air could be forced into the balloon to replace any
-loss of gas, and so keep the silk always fully inflated and “taut”--a
-very important factor in a machine that has to be driven forward
-through the atmosphere.
-
-With this airship Mr. Spencer, as also his equally daring wife, made
-several highly successful trials at the Crystal Palace, when it was
-found to steer well and answer its helm most satisfactorily. Mr.
-Spencer also made two long voyages, from London and from Blackpool, on
-both of which occasions he found he could manœuvre his airship with
-considerable success, make circular flights, and sail against the
-wind, provided it was blowing only at moderate speed.
-
-Encouraged by his success, he next built a similar but much larger
-machine, nearly a hundred feet long, holding 30,000 cubic feet of gas,
-and driven by a petrol motor of twenty-four horse-power. In this case
-the propeller, instead of being placed at the rear, as in general, is
-at the front of the airship, thereby pulling it forward through the
-air instead of pushing it from behind. By this arrangement Mr. Spencer
-thinks his balloon would have less tendency to double up when urged
-against a strong wind. The steering is done by a rudder sail at the
-stern, and to cause his machine to sail higher or lower, the aeronaut
-points its head up or down by means of a heavy balance-rope.
-
-This new airship was ready by the summer of 1903, but the unfavourable
-weather of that stormy season again and again interfered with the
-experiments. On the 17th of September Mr. Spencer announced his
-intention of sailing from the Crystal Palace round the dome of St.
-Paul’s, and returning to his starting-place. The Cathedral was indeed
-safely reached, but the increasing breeze, now blowing half a gale,
-baffled all his attempts to circle round. Again and again, till his
-hands were cut and bleeding with the strain of the ropes, he brought
-his machine up, quivering, to the wind, but all to no purpose, until at
-length, abandoning the attempt, he sailed with the current to Barnet.
-More favourable results may doubtless be looked for with better weather
-conditions.
-
-In France during 1903 the brothers Lebaudy made some successful trips
-with an airship of their own construction. Many other airships are
-now being built in all parts of the world, in preparation for the
-aeronautical competitions to take place in America on the occasion of
-the St. Louis Exhibition of this year.
-
-
-
-
-CHAPTER VII
-
-THE FLYING MACHINE
-
-
-It is now time we turn our attention from the airship to its important
-rival, the flying machine.
-
-At first sight it may perhaps appear that so far the flying machine has
-accomplished less than the airship, and gives less promise of success,
-since up to the present time no flying machine has taken a man any
-distance into the air, or indeed done much more than just lift itself
-off the ground. Nevertheless those who have made a study of the matter
-are full of hope for the future. Many experts declare that already the
-limits of what can be done with the airship, which depends upon the
-lifting power of its gas to raise it and to sustain it in the air,
-are being reached. It has indeed been proved that on a calm day, or
-with only a light breeze, this form of sky vessel can be steered safely
-about the heavens, and doubtless as engines are constructed yet lighter
-and more powerful in proportion to their weight, more successful
-voyages still will be accomplished. But it is extremely doubtful
-whether an airship can ever be constructed which shall be able to stand
-against a gale of wind.
-
-So long as a balloon sails only with the breeze it offers no resistance
-to the force of the wind, and can be made of the lightest and thinnest
-material. But directly it has to face the wind, and fight its way
-against it as an airship must do, then it has to be made of sufficient
-strength and rigidity to withstand the wind’s power, or it will be
-blown to pieces. To make so large a thing as an airship withstand
-a rough wind, it must be built of very strong and rigid materials.
-To do this means to add to the weight of the machine. To lift the
-increased weight, a larger machine which can hold more gas is needed.
-The larger the machine the more surface it offers to the wind, and
-the stronger therefore must be its construction. It will now be seen
-that we are arguing in a circle, and we can understand that a point
-must be reached in the making of airships when, with our present
-materials, the advantage gained by increase of strength will be more
-than counterbalanced by increased weight. On this point Sir Hiram Maxim
-says: “It is not possible to make a balloon, strong enough to be driven
-through the air at any considerable speed, at the same time light
-enough to rise in the air; therefore balloons must always be at the
-mercy of a wind no greater than that which prevails at least 300 days
-in the year;” adding, “Those who seek to navigate the air by machines
-lighter than air have, I think, come practically to the end of their
-tether.”
-
-With the flying machine, on the contrary, the same difficulty does
-not arise. Since it is at all times heavier than air, and is kept
-aloft simply by its motive power and mechanism, its weight is of no
-consequence, provided only its engine is sufficiently powerful. It may,
-therefore, be built as rigidly as need be, while, from its size--which
-is much smaller in proportion to its lifting power than in the case of
-the airship--and also from its construction, it is much less liable to
-be affected by the wind.
-
-In constructing a flying machine which is heavier than air the inventor
-has before him two examples of bodies which, though heavier than the
-atmosphere, yet contrive to rise upwards into the sky; these are,
-firstly, birds, and secondly, the familiar schoolboy toys, kites. To
-imitate the flying powers of birds and kites, he must first understand
-the means by which their flight is accomplished; and he will find,
-on examination, that to a large extent the same principle underlies
-each--the principle of what is termed the “aeroplane.”
-
-[Illustration: KESTREL.]
-
-As we watch birds--especially large birds, as hawks and gulls--winging
-their way about the sky, we may notice that their flight is
-accomplished in two ways; either they are moving through the air by
-flapping their wings up and down, or else with wings wide outstretched
-they are soaring or sailing in the air for long times together
-without apparently moving their wings at all. Certain birds, such as
-vultures and albatrosses, possess this power of soaring flight to an
-extraordinary degree, and the exact way in which they keep themselves
-poised aloft is indeed still a mystery. We cannot, however, as we
-watch, say, a hawk, hovering in the air with motionless wing, help
-being struck by its resemblance to the schoolboy’s kite, kept afloat
-high in the sky by the action of the wind properly applied to its
-surface, and we can at once see that the bird makes use of the same
-principle as the kite in its soaring or hovering flight. Indeed, just
-as a kite sinks to earth when the wind drops, so in a dead calm even an
-albatross has to flap its wings to keep afloat.
-
-It is to the principle of the kite, therefore, that the inventor of
-the flying machine must turn. He must adapt the same principle to his
-apparatus, and this he does in his aeroplane, which, as will be seen,
-is an all-important part of his machine, and which, in its simplest
-form, is nothing more or less than a kite.
-
-We know that if a light flat body, such as a kite, is lying upon the
-ground, and the wind gets under it so as to tilt it, it will be lifted
-by the wind into the air. The string of a kite is so adjusted that as
-the kite rises it is still held at an angle to the wind’s force, and so
-long as the kite remains tilted at the necessary angle so long it will
-continue to rise or poise itself in the air while the wind blows. When
-schoolboys fly their kites they choose an exposed spot, and a day when
-the wind is blowing freshly and steadily. One boy throws the kite into
-the air, while another, holding the string to which it is fastened,
-draws it tight by running with it against the wind. By this means the
-kite, if rightly adjusted, is held at the proper angle to the wind, and
-started without dragging along the ground to begin with. As soon as the
-wind has fairly caught the kite and carried it up into the air, the boy
-who holds the string need run no longer, but if the breeze suddenly
-fails, and the kite begins to drop, he may still keep his toy aloft by
-running quickly along and dragging the kite after him; the artificial
-wind he thus creates making up for the lack of the other.
-
-Now let us suppose that there is no string to hold the kite in proper
-position, and no boy to run with it; but that their places are supplied
-by a motor and propeller to drive it through the air; while at the same
-time it is so balanced as to preserve a fitting angle against a wind of
-its own making. We should then have a true flying machine, heavier than
-air, and yet capable of sailing through the sky.
-
-This is the kind of flying machine that inventors at the present moment
-are trying to produce. They have, in their machines, to reproduce
-artificially two essential conditions that cause a kite to fly. They
-have to provide a substitute for the strength of the wind, and also a
-substitute for the pull of the string which keeps the kite at the best
-angle to profit by that strength. The first they achieve by using a
-suitable engine or motor, and the second by supplying it with what are
-called “aeroplanes”--large flat surfaces, light but rigid, inclined at
-a suitable angle to the horizon. By the use of these the power of the
-engine is employed to best advantage in causing the machine to sail
-through the sky.
-
-The great advantage of the aeroplane over any other mode of flying
-is thus described by Major Baden-Powell, one of our greatest living
-authorities on aeronautical matters: “When people realise that in the
-case of the aeroplane a contrivance like the awning of a small steam
-launch is capable of supporting the man and the engines, and that in
-the case of the balloon a mass like a big ship is necessary to lift
-the same weight, one can readily understand the advantages of the
-aeroplane, especially when to the drawbacks of the bulky balloon are
-added the great difficulties inherent in the retention of a large
-volume of expensive, inflammable, and subtle gas, ever varying in its
-density.”
-
-The most successful inventors of flying machines at the present day
-are all Americans, though one of them has made his experiments on this
-side of the Atlantic. They are Sir Hiram Maxim, inventor of the famous
-gun, and one of the greatest mechanicians living; Professor Langley,
-Secretary of the Smithsonian Institute, Washington; and the brothers
-Wright.
-
-Mr. Maxim, as he then was, commenced his experiments in the early
-nineties. As we have already shown, he went to Nature for his guide,
-and in constructing his flying machine took as his analogy the flight
-of birds. Birds urge their way onwards in the air by reason of the
-strength of their wings. A flying machine must do the same by the power
-of its engine; and as a bird’s wings must be strong in proportion to
-the bird’s weight, so the strength or horse-power of the engine must
-stand in a certain proportion to the number of pounds it weighs. Mr.
-Maxim’s first task, therefore, was to discover what proportion this
-must be, and by his experiments he arrived at a conclusion which
-Professor Langley in America, working at the same task at the same
-time, but quite independently, had also proved to be true, namely,
-that the faster a machine travels through the air the greater weight
-it may carry; or, in other words, the quicker a body moves through
-the atmosphere the less tendency will it have to fall to the ground.
-A quick-flying bird like an albatross, therefore, flies with less
-exertion, and so could carry a greater weight, than a slow-moving bird
-like a goose. It must therefore be to the advantage of the flying
-machine that its engines should attain as great a speed as possible.
-
-Maxim’s next task was to construct a suitable engine. Light but
-powerful engines had not then reached the pitch of perfection they have
-now, and his results proved at the time a perfect revelation of what
-could be done in this direction, and led to great advances being made.
-
-[Illustration: THE MAXIM AIRSHIP.]
-
-Next came the designing of the great machine itself. It was an enormous
-apparatus, weighing over three tons, capable of carrying three men, and
-supported by no less than 4000 square feet of aeroplanes, placed one
-above the other. Its steam-engine was of 363 horse-power, and worked
-two screws of nearly 18 feet in diameter. Before such a machine could
-rise from the ground it must first have attained a very great forward
-impetus, and this it was to receive by running at a great speed on
-wheels along a railway track specially laid down for it. To prevent the
-apparatus rising unduly, a reversed rail was erected a short distance
-above, on which the machine would begin to run as soon as it lifted
-itself off the lower track. Along this railway the flying machine was
-tested, and it was found that as soon as a speed of thirty-six miles
-an hour was reached the wheels were lifted clear off the ground, and
-were running only upon the upper rail. On the last occasion a speed of
-forty-two miles an hour was attained, when the lifting power became so
-great that the restraining rail broke away altogether, and the great
-flying machine actually floated in the air for a few moments, “giving
-those on board the sensation of being in a boat,” until, steam being
-shut off, it fell to the ground and was broken.
-
-The enormous expense of his experiments has not prevented Sir Hiram
-Maxim from repeating them, and he hopes soon to have a much improved
-machine. Nevertheless his experience and calculations have been of
-great value to those who would follow in his footsteps, and have proved
-the possibility of constructing a flying machine which shall fly by
-virtue of its own motion.
-
-Meanwhile in America Professor Langley was experimenting,
-independently, almost on the same lines. He also was bent on producing
-a flying machine, but instead of starting to work upon a large
-apparatus like Maxim, he began by making models, and gradually worked
-his way up to bigger things. For many months he studied to understand
-the principle of those ingenious little toys sometimes seen, which, by
-means of the tension of a twisted india-rubber band, will keep afloat
-in the air for a few seconds. Next he constructed small models driven
-by steam, in which he found his great difficulty was in keeping down
-the weight. For years he persevered in his work without any great
-success, until in 1896 he produced a model machine which he called
-an “aerodrome.” It was quite small, weighing with its engine only 25
-lbs., and measuring but 14 feet from tip to tip of its aeroplanes.
-The experiments were made over water, and the necessary momentum was
-given by dropping it from a platform 20 feet high. On more than one
-occasion this little flying machine rose with great steadiness in the
-face of the wind to a height of 100 feet, moving so smoothly that it
-might have carried a glass of water without spilling a drop; and then,
-the steam of its engine being exhausted, sank down gracefully upon the
-water, having flown about half a mile in a minute and a half. This
-success encouraged Professor Langley next to construct a full-sized
-flying machine on the same lines; but this on its first voyage plunged
-headlong into the water and was hopelessly damaged. The United States
-Government have since granted him a sum of money to continue his
-experiments.
-
-Latest of all the airship inventors, and perhaps so far the most
-successful, are the brothers Wright. Up to the date of writing this the
-full details of their work are not yet made public, but it is known
-that on the 17th of December 1903, their machine, which consists of two
-large aeroplanes driven forward by an engine of sixteen horse-power,
-after being started along a short track on level ground, rose into the
-air and flew for about half a mile.
-
-It remains for us now to make brief mention of how men have tried,
-and are still trying, to imitate the soaring or gliding flight of
-birds without the use of machinery to assist them. We have seen how an
-albatross can, when the wind is blowing, convert itself, as it were,
-into a kite, and keep aloft in the air for a while without moving its
-wings. Similarly many people have attempted, by attaching themselves
-to a large supporting surface or aeroplane, and casting themselves off
-from a height, to glide with the wind across wide stretches of country.
-In this mode of soaring flight some have made considerable progress.
-Herr Lilienthal, a German, was perhaps for a time the most successful.
-He started from small beginnings, jumping off a spring board a few feet
-high, and gradually increasing the height as he became more accustomed
-to his apparatus. Later he had a large artificial mound made specially
-for him, and from the top of this he would throw himself into the
-air, and with a favourable wind sail a distance of four hundred yards
-at a considerable height above the ground. Lilienthal’s experiments,
-however, came to a sad end. On August the 11th, 1896, after he had
-glided along in the air for about two hundred yards, a sudden gust
-of wind caught the wide-spread wings of his apparatus, and tilted it
-upwards. This caused him to lose his balance, and he fell from a height
-of sixty feet and broke his spine. A similar accident also caused the
-death, a few years later, of a young Englishman, Mr. Percy S. Pilcher,
-who had been following up Lilienthal’s experiments.
-
-The greatest difficulty now to be overcome in solving the problem of
-human flight, whether with soaring apparatus or flying machine, may be
-summed up in one word--“balance.” Every schoolboy knows that the great
-art of kite-flying consists in so adjusting the point of attachment
-of the string and the length of the tail that his kite is properly
-balanced, and is not liable to turn over or “dip” when in the air.
-Every observer of birds, too, has noticed how largely the question of
-balance enters into their flying. A bird in the air is continually and
-instinctively adjusting its wings to its position, and to every puff of
-wind, even as a man on a bicycle is continually, though unconsciously,
-adjusting his handle-bar to the inequalities of the road; and as a
-cyclist requires practice before he can ride his machine, or a skater
-before he can keep his feet on the ice, so even a bird has to learn how
-to balance itself before it can use its wings.
-
-Dwellers in the country are familiar with the way in which the parent
-birds teach their fledglings to fly, instructing them by example,
-and encouraging them in their first short flights until they have
-become familiar with their powers and can balance themselves aright
-in the air. And if even birds, with whom flying is an instinct, have
-to learn the art of balancing themselves in the air by practice, how
-much more so must such a clumsy creature as a man, to whom flying is
-entirely unnatural. Only by long and painful efforts can he ever hope
-to succeed at all, and unfortunately all such efforts are necessarily
-very dangerous. Many disastrous accidents have already occurred, and
-although great progress has been made, and the time may not now be far
-distant when, by means of improved machines, men will actually fly, it
-will be at the cost of much labour, and, it is to be feared, at the
-sacrifice of many more brave lives.
-
-
-
-
-CHAPTER VIII
-
-CONCLUSION
-
-
-In our last chapters we have, in some measure, brought our aeronautical
-history up to the present day, though of necessity many important
-points and notable voyages have been passed over unnoticed. It now
-remains to us but to gather up the loose ends of the story, and then
-briefly to indicate the direction in which we may expect new advances
-in the future.
-
-And, first of all, it may be well to mention a few ballooning
-“records.” The largest balloon ever known was used as a captive at the
-Paris Exhibition of 1878. It was of 883,000 cubic feet capacity, and
-capable of lifting more than fifty passengers at a time. Other mammoth
-balloons of almost as great dimensions have also been employed for
-captive work; but the largest balloon intended specially for “right
-away” ascents was the “Giant,” built in Paris in 1863 by M. Nadar. It
-held 215,000 cubic feet of gas, and was made of 22,000 yards of best
-white silk, at 5s. 4d. a yard. The car was particularly elaborate,
-almost as big as a small cottage, being of two stories, and divided
-into several rooms. It proved, however, to be a very dangerous adjunct,
-for on the two occasions it was used those within received very serious
-injury during rough landings, and it was soon put aside and replaced by
-an ordinary basket. None of these monster sky craft appear to have been
-very successful, and at the present day the largest balloons in general
-use do not exceed 50,000 or 60,000 cubic feet capacity.
-
-The honour of the longest aerial voyage ever made rests with the
-unfortunate Andrée, who, if his dates are to be relied upon, had
-been forty-eight hours aloft in his balloon when he despatched his
-last found message. Not far behind in point of time, however, was
-Count de la Vaulx, who in the summer of 1901 attempted to cross the
-Mediterranean by balloon. Contrary winds in the end baffled his
-venture, and he was forced to descend on the deck of a steamer which
-was following his course, but not before he had spent forty-one hours
-in the sky. The year previous the Count had also achieved a record
-long-distance voyage in connection with some balloon competitions
-held during the French “Exposition” of 1900. Starting from Paris, he
-descended in Russia, 1193 miles away, having been aloft thirty-six
-hours all but fifteen minutes.
-
-For lofty ascents the palm still rests with Glaisher and Coxwell,
-whose famous voyage of 1862, when, as related, a height of 37,000
-feet (or seven miles) is said to have been reached, has never been
-equalled. The exact altitude attained on this occasion is, however,
-as we have explained, only conjectural, neither being capable at the
-last of taking observations, and no height being _registered_ over
-29,000 feet. On July 31st, 1901, two German scientists, Dr. Berson and
-Dr. Suring, ascended from Berlin to a _registered_ altitude of 34,400
-feet, or well over six miles. They were provided with compressed oxygen
-to breathe, but even then became unconscious during the last 800 feet
-of the ascent. Three years before Dr. Berson had made a very lofty
-ascent in England, accompanied by Mr. Stanley Spencer, when a height
-of 27,500 feet was reached. A terrible accident occurred in connection
-with a lofty scientific ascent made from Paris in 1875 by Tissandier,
-inventor of the airship already mentioned, and two companions. Their
-object was to attain a record height, in which they indeed succeeded,
-reaching 28,000 feet. But despite the artificial air they took with
-them to breathe, they all three became unconscious in the extreme upper
-regions, and when, after one of the most awful voyages in the whole
-history of ballooning, Tissandier came to himself, it was to find the
-bodies of his two friends stiff and cold beside him in the car.
-
-Coming to the aeronautical work of the present day, it is humiliating
-to have to confess that, through lack of public support, England has
-somewhat fallen behind other nations. In America and on the Continent
-large sums of money are subscribed for experiments with balloons,
-airships, and flying machines; but in our own country all efforts in
-these directions are due to private enterprise alone. Among those
-most keenly interested in aeronautical progress may be mentioned Mr.
-P. Alexander, of Bath; Major Baden-Powell, President of the English
-Aeronautical Society; and the Rev. J. M. Bacon. The latter has
-made many scientific balloon ascents for the study of meteorology,
-acoustics, and other kindred sciences, and his observations have proved
-of much interest and value. During his voyages he has met with several
-adventures, though no serious mishaps. On one occasion, when the writer
-accompanied him, during a night ascent made to observe the great shower
-of Leonid shooting stars foretold for the 16th of November 1899, the
-balloon became unmanageable while lost above the clouds. For ten hours
-it refused to come down, during much of which time the sea was heard
-beneath, and the voyagers believed themselves blown out over the
-Atlantic. A very stormy landing, in which the writer broke her arm, was
-eventually made near the coast in South Wales as before mentioned.
-
-In November 1902, Mr. Bacon, accompanied by Mr. Percival Spencer,
-crossed the Irish Channel by balloon, the second time only this
-dangerous passage has been made, the first occasion being the voyage
-of Mr. Windham Sadler, eighty-five years before. Mr. Bacon’s voyage
-was partly undertaken for the Admiralty, who lent the services of a
-gunboat to follow the balloon’s course over the sea. One of the special
-objects of investigation was to test a theory, long held, that from a
-considerable height aloft the bottom of the sea becomes visible, even
-in rough weather when the surface is troubled with waves. This point
-was very successfully settled, for although the sea was very rough, Mr.
-Bacon not only saw, but succeeded in photographing, from a height of
-600 feet, the beds of sand and rock lying in ten fathoms at the bottom
-of the Irish Channel--a feat never before accomplished.
-
-In scientific observations of the upper atmosphere a valuable ally to
-the balloon has been found in the kite. The making of kites has now
-reached a high pitch of perfection, and by their means self-recording
-scientific instruments can be raised to vast heights in the air, and
-even men carried aloft with safety. A kite which latterly has excited
-much attention is the Cody kite. With this, during the autumn of 1903,
-its inventor, a Mexican, hazarded a bold venture. Harnessing it to a
-light boat, and waiting for a favourable wind, he started from Calais
-at eight o’clock one November evening, and was safely towed all night
-across the Channel, reaching Dover at five the next morning.
-
-The aeronautical competitions at the St. Louis Exhibition, in America,
-have given a great impetus to one branch at least of aeronautics,
-while the labour of many scientific workers throughout the whole world
-is directed to the improvement of our present modes of exploring the
-heavens, and the turning to best account of the means already at our
-disposal. Never since the days when the Montgolfier brothers floated
-their first frail craft has so much interest as now been manifested in
-the conquest of the sky, and never has progress been more rapid and
-sure. Whether the day will ever come when man will rule the atmosphere
-as he now does the sea is, as yet, uncertain, but there are many who
-hope and believe not only that he will, but that the day is not far
-distant when the birds will no longer hold undisputed sway over the
-empire of the air.
-
-
-  Printed by BALLANTYNE, HANSON & CO.
-  Edinburgh & London
-
-
-
-
-Transcriber’s Notes
-
-
-Punctuation, hyphenation, and spelling were made consistent when a
-predominant preference was found in this book; otherwise they were not
-changed.
-
-Simple typographical errors were corrected; occasional unbalanced
-quotation marks retained.
-
-Ambiguous hyphens at the ends of lines were retained.
-
-
-
-
-
-End of the Project Gutenberg EBook of Balloons, Airships, and Flying Machines, by 
-Gertrude Bacon
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-<pre>
-
-The Project Gutenberg EBook of Balloons, Airships, and Flying Machines, by 
-Gertrude Bacon
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world 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.  If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-Title: Balloons, Airships, and Flying Machines
-
-Author: Gertrude Bacon
-
-Release Date: May 27, 2017 [EBook #54799]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK BALLOONS, AIRSHIPS, FLYING MACHINES ***
-
-
-
-
-Produced by deaurider, Charlie Howard, and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
-
-
-
-
-
-</pre>
-
-
-<p class="p4 center vspace larger">THE<br />
-
-<span class="large"><span class="smcap">Practical Science Series</span></span></p>
-
-<p class="p1 center"><i>The following Vols. are now ready or in the Press</i>:—</p>
-
-<blockquote class="hang">
-
-<p>BALLOONS, AIRSHIPS, AND FLYING MACHINES.
-By <span class="smcap">Gertrude Bacon</span>.</p>
-
-<p>MOTORS AND MOTORING. By Professor <span class="smcap">Harry
-Spooner</span>.</p>
-
-<p>RADIUM. By Dr. <span class="smcap">Hampson</span>.</p>
-
-<p>METEOROLOGY; or, <span class="smcap">Weather Explained</span>. By <span class="smcap">J.
-Gordon M‘Pherson</span>, M.A., LL.D.</p></blockquote>
-
-<p class="p2 center"><i>Others in Preparation</i></p>
-
-<div id="if_i_004" class="newpage p4 figcenter" style="max-width: 21.5625em;">
-  <img src="images/i_004.jpg" width="345" height="481" alt="" />
-  <div class="caption"><p><span class="smcap">The Authoress, her Father, and Mr. Spencer<br />
-    making an Ascent.</span></p></div>
-  <div class="captionr"><p><i>Frontispiece.</i></p></div>
-</div>
-
-<hr />
-
-<h1>
-BALLOONS<br />
-AIRSHIPS <span class="smaller">AND</span> FLYING<br />
-MACHINES</h1>
-
-<p class="p2 center larger vspace wspace"><span class="small">BY</span><br />
-GERTRUDE BACON</p>
-
-<p class="p2 center vspace wspace">NEW YORK<br />
-DODD, MEAD &amp; COMPANY<br />
-LONDON: T. C. &amp; E. C. JACK<br />
-<span class="smaller">1905</span>
-</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_vii" id="Page_vii">vii</a></span></p>
-
-<div class="chapter">
-<h2><a name="CONTENTS" id="CONTENTS"></a>CONTENTS</h2>
-</div>
-
-<table summary="Contents">
-  <tr class="small">
-    <td class="tdr nopad">CHAP.</td>
-    <td> </td>
-    <td class="tdr nopad">PAGE</td></tr>
-  <tr>
-    <td class="tdr top">I.</td>
-    <td class="tdl">THE ORIGIN OF BALLOONING</td>
-    <td class="tdr"><a href="#CHAPTER_I">9</a></td></tr>
-  <tr>
-    <td class="tdr top">II.</td>
-    <td class="tdl">THE COMING OF THE GAS BALLOON</td>
-    <td class="tdr"><a href="#CHAPTER_II">23</a></td></tr>
-  <tr>
-    <td class="tdr top">III.</td>
-    <td class="tdl">FAMOUS BALLOON VOYAGES OF THE PAST</td>
-    <td class="tdr"><a href="#CHAPTER_III">38</a></td></tr>
-  <tr>
-    <td class="tdr top">IV.</td>
-    <td class="tdl">THE BALLOON AS A SCIENTIFIC INSTRUMENT</td>
-    <td class="tdr"><a href="#CHAPTER_IV">57</a></td></tr>
-  <tr>
-    <td class="tdr top">V.</td>
-    <td class="tdl">THE BALLOON IN WARFARE</td>
-    <td class="tdr"><a href="#CHAPTER_V">69</a></td></tr>
-  <tr>
-    <td class="tdr top">VI.</td>
-    <td class="tdl">THE AIRSHIP</td>
-    <td class="tdr"><a href="#CHAPTER_VI">84</a></td></tr>
-  <tr>
-    <td class="tdr top">VII.</td>
-    <td class="tdl">THE FLYING MACHINE</td>
-    <td class="tdr"><a href="#CHAPTER_VII">105</a></td></tr>
-  <tr>
-    <td class="tdr top">VIII.</td>
-    <td class="tdl">CONCLUSION</td>
-    <td class="tdr"><a href="#CHAPTER_VIII">119</a></td></tr>
-</table>
-
-<hr />
-
-<p><span class="pagenum"><a id="Page_9">9</a></span></p>
-
-<div class="chapter">
-<h2><span class="larger wspace vspace">BALLOONS, AIRSHIPS, AND<br />
-FLYING MACHINES</span></h2>
-</div>
-
-<hr />
-<div class="chapter">
-<h2 class="vspace"><a id="CHAPTER_I"></a>CHAPTER I<br />
-
-<span class="subhead">THE ORIGIN OF BALLOONING</span></h2>
-</div>
-
-<p>One November night in the year 1782, so the
-story runs, two brothers sat over their winter
-fire in the little French town of Annonay,
-watching the grey smoke-wreaths from the
-hearth curl up the wide chimney. Their names
-were Stephen and Joseph Montgolfier, they
-were papermakers by trade, and were noted
-as possessing thoughtful minds and a deep
-interest in all scientific knowledge and new
-discovery. Before that night—a memorable
-night, as it was to prove—hundreds of
-millions of people had watched the rising
-smoke-wreaths of their fires without drawing
-any special inspiration from the fact; but
-on this particular occasion, as Stephen, the
-younger of the brothers, sat and gazed at the
-familiar sight, the question flashed across his
-mind, “What is the hidden power that makes
-those curling smoke-wreaths rise upwards, and<span class="pagenum"><a id="Page_10">10</a></span>
-could I not employ it to make other things
-rise also?”</p>
-
-<div id="ip_10" class="figcenter" style="max-width: 20em;">
-  <img src="images/i_010.jpg" width="288" height="345" alt="" />
-  <div class="caption"><span class="smcap">Medallion showing Brothers Montgolfier.</span></div></div>
-
-<p>Then and there the brothers resolved on an
-experiment. They made themselves a small
-fire of some light fuel in a little tin tray or
-chafing-dish, and over the smoke of it they
-held a large paper-bag. And to their delight
-they saw the bag fill out and make a feeble<span class="pagenum"><a id="Page_11">11</a></span>
-attempt to rise. They were surely on the
-eve of some great invention; and yet, try as
-they would, their experiment would not quite
-succeed, because the smoke in the bag always
-became too cool before there was enough in it
-to raise it from the table. But presently,
-while they were thus engaged, a neighbour of
-theirs, a widow lady, alarmed by seeing smoke
-issuing from their window, entered the room,
-and after watching their fruitless efforts for
-some while, suggested that they should fasten
-the tray on to the bottom of the bag. This
-was done, with the happy result that the bag
-immediately rose up to the ceiling; and in
-this humble fashion the first of all balloons
-sailed aloft.</p>
-
-<p>That night of 1782, therefore, marks the first
-great step ever made towards the conquest of
-the sky. But to better understand the history
-of “Aeronautics”—a word that means “the
-sailing of the air”—we must go back far beyond
-the days of the Montgolfier brothers.
-For in all times and in all ages men have
-wanted to fly. David wished for the wings
-of a dove to fly away and be at rest, and since
-his time, and before it, how many have not
-longed to take flight and sail away in the
-boundless, glorious realms above, to explore
-the fleecy clouds, and to float free in the blue
-vault of heaven.</p>
-
-<p>And since birds achieve this feat by means
-of wings, man’s first idea was to provide himself<span class="pagenum"><a id="Page_12">12</a></span>
-with wings also. But here he was at once
-doomed to disappointment. It is very certain
-that by his own natural strength alone a man
-will never propel himself through the air with
-wings like a bird, because he is made quite
-differently. A bird’s body is very light compared
-with its size. The largest birds in
-existence weigh under thirty pounds. A
-man’s body, on the contrary, is very heavy
-and solid. The muscles that work a bird’s
-wing are wonderfully powerful and strong, far
-stronger in proportion than the muscles of a
-man’s arm. To sustain his great weight in
-the air, a man of eleven stone would require a
-pair of wings nearly twenty feet in span.
-But the possession of such mighty wings
-alone is not enough. He must also possess
-bodily strength to keep them in sufficient
-motion to prevent him from falling, and for
-this he would require at least the strength of
-a horse.</p>
-
-<p>Such strength a man has never possessed, or
-can ever hope to; but even as it is, by long
-practice and great effort, men have succeeded
-at different times, not exactly in flying, but
-in helping themselves along considerably by
-means of wings. A man is said to have flown
-in this way in Rome in the days of Nero. A
-monk in the Middle Ages, named Elmerus,
-it is stated, flew about a furlong from the top
-of a tower in Spain, another from St. Mark’s
-steeple in Venice, and another from Nuremburg.<span class="pagenum"><a id="Page_13">13</a></span>
-But the most successful attempt ever
-made in this direction was accomplished about
-200 years ago by a French locksmith of the
-name of Besnier. He had made for himself a
-pair of light wooden oars, shaped like the
-double paddle of a canoe, with cup-like blades
-at either end. These he placed over his
-shoulders, and attached also to his feet, and
-then casting himself off from some high place,
-and violently working his arms and legs so as
-to buffet the air downwards with his paddles,
-he was able to raise himself by short stages
-from one height to another, or skim lightly
-over a field or river. It is said that subsequently
-Besnier sold his oars to a mountebank,
-who performed most successfully with them
-at fairs and festivals.</p>
-
-<div id="ip_13" class="figcenter" style="max-width: 18.8125em;">
-  <img src="images/i_013.jpg" width="301" height="174" alt="" />
-  <div class="caption"><span class="smcap">Besnier and his Oars.</span></div></div>
-
-<p>But it was soon clear that the art of human<span class="pagenum"><a id="Page_14">14</a></span>
-flight was not to be achieved by such means;
-and when men found that they were unable to
-soar upwards by their own bodily strength
-alone, they set about devising some apparatus
-or machine which should carry them aloft.
-Many ancient philosophers bent their minds
-to the inventing of a machine for this purpose.
-One suggested that strong flying birds, such
-as eagles or vultures, might be harnessed to
-a car, and trained to carry it into the sky.
-Another gravely proposed the employment of
-“a little imp”—for in those days the existence
-of imps and demons was most firmly believed
-in. A third even went so far as to give an
-actual <em>recipe</em> for flying, declaring that “if the
-eggs of the larger description of swans, or
-leather balls stitched with fine thongs, be filled
-with nitre, the purest sulphur, quicksilver,
-or kindred materials which rarefy by their
-caloric energy, and if they externally resemble
-pigeons, they will easily be mistaken for flying
-animals.” (!)</p>
-
-<p>The first man who appeared to have any
-inkling of the real way of solving the problem
-of a “flying chariot,” and who in dim fashion
-seems to have foreshadowed the invention of
-the balloon, was that wonderful genius, Roger
-Bacon, the Learned Friar of Ilchester, the
-inventor or re-inventor of gunpowder, who
-lived in the thirteenth century. He had an
-idea—an idea which was far ahead of his
-times, and only proved to be true hundreds<span class="pagenum"><a id="Page_15">15</a></span>
-of years after—that the earth’s atmosphere
-was an actual substance or “true fluid,” and
-as such he supposed it to have an upper
-surface as the sea has, and on this upper surface
-he thought an airship might float, even
-as a boat floats on the top of the water.
-And to make his airship rise upwards to
-reach this upper sea, he said one must employ
-“a large hollow globe of copper or other
-similar metal wrought extremely thin, to have
-it as light as possible, and filled with <em>ethereal
-air</em> or liquid fire.”</p>
-
-<p>It is doubtful whether Bacon had very clear
-ideas of what he meant by “ethereal air.”
-But, whether by accident or insight, he had in
-these words hit upon the true principle of the
-balloon—a principle only put into practice five
-centuries later. He saw that a body would
-rise upwards through the air if it were filled
-with something lighter than air, even as a
-body will rise upwards through the water if it
-is made of, or filled with, something lighter
-than water. We know that if we throw an
-empty bottle tightly corked into the sea it
-does not sink, but rises upwards, because it is
-filled with air, which is lighter than water.
-In the same way exactly a light bag or balloon
-which is filled with some gas which is lighter
-than air will not stay on the surface of the
-ground, but will rise upwards into the sky to
-a height which depends upon its weight and
-buoyancy.</p>
-
-<p><span class="pagenum"><a id="Page_16">16</a></span>
-Later philosophers than Bacon came to the
-same conclusion, though they do not seem to
-have seen matters more clearly. As recently
-as 1755 a certain learned French priest actually
-suggested that since the air on the top of high
-mountains is known to be lighter than that at
-an ordinary level, men might ascend to these
-great heights and bring down the light air “in
-constructions of canvas or cotton.” By means
-of this air he then proposed to fly a great
-machine, which he describes, and which seems
-to have been as large and cumbersome as
-Noah’s Ark. Needless to say, the worthy
-Father’s proposal has never yet been put into
-practice.</p>
-
-<p>But it is time now that we return to the
-two brothers Montgolfier and their paper-bag
-of smoke. Their experiments proved at once
-that in smoke they had found something
-which was lighter than air, and which would,
-therefore, carry a light weight upwards. But
-of what this something was they had, at the
-time, but a confused idea. They imagined
-that the burning fuel they had used had given
-off some special light gas, with the exact nature
-of which they were unacquainted. The very
-word gas, be it here said, was in those days
-almost unknown, and of different gases, their
-nature and properties, most people had but
-the very vaguest notions.</p>
-
-<p>And so for some time the Montgolfiers
-and their followers supposed that the presence<span class="pagenum"><a id="Page_17">17</a></span>
-of this mysterious gas was necessary to the
-success of their experiments, and they were
-very careful about always using special kinds
-of fuel, which they supposed gave off this gas,
-to inflate their bags. Later experiments
-proved, however, what every one now knows,
-that the paper-bag rose, not because of the
-gases given off by the fire, but by reason of
-the hot air with which it became filled. Nearly
-all substances, no matter how solid, expand
-more or less under the influence of heat, and
-air expands very greatly indeed. By thus
-expanding heated air becomes lighter than
-the surrounding air, and, because it is lighter,
-rises upwards in the atmosphere, and continues
-to rise until it has once more regained the
-average temperature.</p>
-
-<div id="ip_17" class="figcenter" style="max-width: 21.1875em;">
-  <img src="images/i_018.jpg" width="339" height="497" alt="" />
-  <div class="caption"><span class="smcap">Montgolfier’s Balloon.</span></div></div>
-
-<p>Encouraged by the success of their first
-humble experiment, the Montgolfiers next
-tried their paper-bag in the open air, when
-to their delight it sailed upwards to a height
-of 70 feet. The next step was to make a
-much larger craft of 600 cubic feet capacity
-and spherical in shape, which they called a
-“Balloon,” because it was in appearance like
-a large, round, short-necked vessel used in
-chemistry which was technically known by
-that name. This great bag, after being inflated,
-became so powerful that it broke loose
-from its moorings, and floated proudly upwards
-600 feet and more, and came down
-in an adjoining field. After a few more successful<span class="pagenum"><a id="Page_19">19</a></span>
-trials the brothers thought that the
-time had come to make known their new
-invention. Accordingly they constructed a
-great balloon of 35 feet in diameter, and
-issued invitations to the public to come and
-see the inflation. This was successfully made
-over a fire of chopped straw and wool, and
-the giant rose up into the sky amid the
-deafening applause of a huge multitude, and
-after attaining a height of 7000 feet, fell to
-the ground a mile and a half away.</p>
-
-<p>The news of this marvellous event spread
-like wild-fire throughout the kingdom, and
-soon not only all France, but all Europe also,
-was ringing with the tidings. The French
-Royal Academy of Sciences immediately
-invited Stephen Montgolfier to Paris, and
-provided him with money to repeat his
-experiment. He accordingly constructed a
-yet larger machine, which stood no less than
-72 feet high, had it most magnificently
-painted and decorated and hung with flags,
-and sent it up at Versailles in the presence
-of the King and all his court.</p>
-
-<p>This particular balloon is noteworthy as
-having been the first of all balloons to carry
-living passengers into the air. They were
-three in number, a sheep, a cock, and a duck.
-Breathlessly the assembled multitude watched
-these innocent victims placed in the basket
-and soar calmly and majestically above their
-heads; and eagerly they followed the balloon<span class="pagenum"><a id="Page_20">20</a></span>
-to where it fell half a mile away to learn
-their fate. Would they have been suffocated
-in those upper regions of the air which no
-human being had yet explored, or would they
-be dashed to pieces in the descent? But
-they found the trio quite uninjured; the
-unimaginative sheep grazing quietly, and the
-duck cheerfully quacking. Forthwith the cry
-then arose that it was time for a man to
-hazard the ascent, and King Louis, who, like
-every one else, was vastly excited over the
-wonder, suggested that two criminals then
-lying under sentence of death should be sent
-aloft.</p>
-
-<p>But now a brave French gentleman—M.
-Pilâtre de Rozier, a name ever to be remembered
-in the history of the conquest of the air—uprose
-in indignation. “Shall vile criminals
-have the first glory of rising into the sky!”
-he cried, and then and there he proudly
-claimed for himself the honour of being first
-among mortals in the history of the world
-to sail the air. His courageous resolve was
-wildly applauded, and forthwith preparations
-were commenced for the new venture. A
-yet larger balloon was made, in height as
-tall as a church tower, with a mouth 15 feet
-across. Around the mouth was fastened a
-gallery of wicker-work, three feet wide, to hold
-the passengers, and below all was slung with
-chains an iron brazier of burning fuel.</p>
-
-<p>By way of precaution, when all was complete<span class="pagenum"><a id="Page_21">21</a></span>
-De Rozier made a few short captive
-excursions, the balloon being fastened to
-earth by a rope. But all proving satisfactory,
-he decided to hazard a “right away” trip on
-the 21st of November 1783, when he was also
-to be accompanied by an equally courageous
-fellow-countryman, the Marquis d’Arlandes.
-It would be difficult to conceive a more daring
-and perilous enterprise than these two brave
-Frenchmen set themselves. They were to
-venture, by an untried way, into unknown
-realms where no mortal had been before;
-they were to entrust their lives to a frail
-craft whose capabilities had never yet been
-tested, and at a giddy height they were to
-soar aloft with an open fire, which at any
-moment might set light to the inflammable
-balloon and hurl them to destruction.</p>
-
-<p>Wild indeed was the applause of the crowd
-as the mighty craft, after due inflation, rose
-majestically into the sky, carrying with it its
-two brave <span class="locked">voyagers—</span></p>
-
-<div class="poem-container">
-<div class="poem"><div class="stanza">
-<span class="i6">the first that ever burst<br /></span>
-<span class="i0">Into that silent sea;<br /></span>
-</div></div>
-</div>
-
-<p>and with what anxiety was its course followed
-as, rising rapidly to a height of 3000 feet, it
-drifted away on an upper current which bore
-it right over the city of Paris. The travellers
-themselves experienced various excitements
-during their adventurous trip. They had
-constantly to stir the fire and feed it with<span class="pagenum"><a id="Page_22">22</a></span>
-fresh fuel; they had also with wet sponges
-continually to extinguish the flames when
-the light fabric from time to time ignited.
-At one period they feared descending into
-the river or on the house-tops, at another
-a sharp shock gave them the impression that
-their balloon had burst. But they came
-safely in the end through all perils and
-alarms, descending quietly, after a voyage
-of twenty-five minutes’ duration, five miles
-from their starting-place.</p>
-
-<div id="ip_22" class="figcenter" style="max-width: 21.5em;">
-  <img src="images/i_022.jpg" width="344" height="269" alt="" />
-  <div class="caption"><span class="smcap">An Early Hydrogen Balloon.</span></div></div>
-
-<p>Thus was invented and perfected in the
-course of less than a year the first of all craft<span class="pagenum"><a id="Page_23">23</a></span>
-which carried man into the sky—the Hot-Air
-or Montgolfier Balloon. To this day large
-hot-air balloons inflated by the same methods
-employed a hundred years ago occasionally
-take passengers aloft. Indeed, there now
-seems a likelihood that the use of the Montgolfier
-balloon will be largely revived for
-military purposes, since, with modern improvements,
-it would appear to be more
-quickly and easily inflated than a gas balloon
-in time of warfare. With miniature hot-air
-balloons we are all familiar, for every schoolboy
-has made them for himself of coloured
-papers, and watched them float away on the
-breeze with as much admiration and delight
-as the two brothers of Annonay watched their
-bag first float upwards to the ceiling.</p>
-
-<p>But almost before the invention of the hot-air
-balloon had been completed, and before
-Pilâtre de Rozier had made his ascent, a rival
-craft had appeared upon the scene, to which
-we must more specially refer in the next
-chapter.</p>
-
-<hr />
-<div class="chapter">
-<h2 class="vspace"><a id="CHAPTER_II"></a>CHAPTER II<br />
-
-<span class="subhead">THE COMING OF THE GAS BALLOON</span></h2>
-</div>
-
-<p>During the time of which we are speaking
-there was living in London a famous chemist
-named Henry Cavendish. He was the son of<span class="pagenum"><a id="Page_24">24</a></span>
-a nobleman, and a very rich man; but he
-shut himself up entirely from the world, and
-devoted his whole time and energies to the
-study of science. So afraid was he of being
-interrupted in his work that he lived the life
-of a hermit, commanding his servants to keep
-out of his sight on pain of dismissal, and
-ordering his dinner daily by means of a
-note placed on the hall table. In the year
-1760—twenty-two years before the Montgolfier
-brothers began their experiments—this
-eccentric man had discovered what was then
-known as “inflammable air,” but what we
-now call hydrogen gas.</p>
-
-<p>Cavendish’s experiments proved that hydrogen
-is the lightest of all known substances,
-being about fourteen times lighter than atmospheric
-air; and soon after he had made
-known his researches, it occurred to a certain
-Dr. Black of Edinburgh that if a sufficiently
-thin and light bladder were filled with this
-“inflammable air” it would rise upwards.
-Dr. Black even went so far as to order a
-special bladder to be prepared for the purpose;
-but by the time it was ready he was
-busy with other work, and the experiment
-was never made; otherwise it is extremely
-probable that the honour of inventing the
-balloon would have been won for this country,
-and not for France.</p>
-
-<p>A little later Tiberius Cavallo, an Italian
-chemist living in England, came yet nearer<span class="pagenum"><a id="Page_25">25</a></span>
-to the great invention, for he filled a number
-of soap-bubbles with the newly discovered
-gas, and saw them float high into the air.
-He did not, however, think at the time that
-his experiments would lead to any practical
-result, and so the matter dropped entirely,
-until the world was suddenly electrified by
-the tidings of the wonderful hot-air balloon
-invented by the brothers Montgolfier at
-Annonay.</p>
-
-<p>The news of this discovery recalled to the
-minds of many the almost forgotten experiments
-of the past, and it was forthwith suggested
-that balloons might be inflated with
-hydrogen gas more successfully than with
-hot air. It was resolved immediately to put
-this theory to the test. A large subscription
-to defray expenses was raised in Paris without
-difficulty, for men’s minds were keen
-on the new-found art of sailing the sky;
-and M. Charles, Professor of Experimental
-Philosophy, and two brothers, the Messrs.
-Roberts, well-known mechanicians, were
-appointed to construct a suitable balloon
-and inflate it by the new method.</p>
-
-<p>But they were immediately confronted with
-a difficulty. Hydrogen being the lightest
-and most subtle of gases, they were at a loss
-to know of what material to make their
-balloon, to prevent the gas escaping. After
-several failures they eventually constructed
-a bag of a special kind of silk, and coated<span class="pagenum"><a id="Page_26">26</a></span>
-it all over with a varnish made of indiarubber
-dissolved in turpentine. As they found great
-difficulty in manufacturing large quantities of
-hydrogen, they were forced to make their bag
-a comparatively small one, about thirteen feet
-in diameter. On the 25th of August 1783
-the bag was successfully filled, and the ascent
-was made in Paris in the presence of an
-enormous crowd. The little balloon rose
-upwards with immense rapidity, until it was
-lost to sight in the clouds. Ascending yet
-higher, it presently burst, and came to the
-earth in a village, fifteen miles away, after
-a voyage of three-quarters of an hour.</p>
-
-<div id="ip_26" class="figcenter" style="max-width: 21.3125em;">
-  <img src="images/i_026.jpg" width="341" height="267" alt="" />
-  <div class="caption"><span class="smcap">Attack on the First Charlier Balloon.</span></div></div>
-
-<p><span class="pagenum"><a id="Page_27">27</a></span>
-In the field where the balloon fell a party
-of peasants were at work; at its approach
-they fled in abject terror. From a safe distance
-they watched the strange new monster
-settle to earth and lie prone, and then they
-cautiously drew nearer to inspect it. The
-silk still heaved with the escaping gas, and
-the countrymen were fully convinced that
-an actual living creature of mysterious nature
-lay before them. One man seized his gun
-and fired full at it, and then supposing it
-to be mortally wounded, they all rushed in
-with flails and pitchforks to complete its
-destruction, finally tying it to the tail of a
-horse, who galloped with it all over the
-country, tearing it to shreds. It was small
-wonder that after such an occurrence the
-French Government issued a proclamation to
-the people, telling them that these aeronautical
-experiments were to be repeated, and
-warning them not to be alarmed if they saw
-a balloon in the air, since it was a perfectly
-harmless machine filled with gas, and incapable
-of injuring any one.</p>
-
-<p>This event took place about three months
-after the first public ascent of the hot-air
-balloon. The new craft was immediately
-called a “Charlier,” after its inventor, and
-to distinguish it from the “Montgolfier.”
-There followed various exhibitions of the
-rival airships, and after the voyage of Pilâtre
-de Rozier and the Marquis D’Arlandes,<span class="pagenum"><a id="Page_28">28</a></span>
-Messrs. Charles and Roberts resolved also
-to hazard an ascent in a balloon inflated with
-hydrogen.</p>
-
-<p>A new machine was therefore constructed,
-which differed in many important details from
-all others which had previously been made.
-It was twenty-seven feet in diameter, of
-varnished silk, and over it was spread a net
-of cordage. Instead of a gallery to carry
-the passengers, as in the “Montgolfier,” a car
-shaped like a boat was suspended from the
-net with ropes and hung a few feet below
-the balloon. A valve to let out the gas was
-also provided, and the voyagers carried in
-their car ballast and a barometer to indicate
-their height. It will thus be seen that this
-new balloon was in all practical details the
-same as the balloon of the present day.</p>
-
-<p>The ascent took place on the 17th of December
-in Paris. Stephen Montgolfier was
-present, and launched a small hot-air balloon,
-which amused the onlookers and indicated
-the direction of the wind. Then MM.
-Charles and Roberts stepped into the car,
-and the balloon being liberated, they were
-immediately carried up to a height of 6000
-feet, where a glorious panorama of Paris and
-the adjacent country was spread out before
-their delighted vision. After staying aloft
-about a couple of hours they descended to
-earth again, and Roberts got out of the car.
-Charles decided to continue the voyage awhile<span class="pagenum"><a id="Page_29">29</a></span>
-by himself, and, lightened of his companion’s
-weight, the balloon this time rose to 10,500
-feet. The sun had by this time set upon the
-earth, but at this height Charles saw it rise
-once more and set a second time. The thermometer
-fell far below freezing-point, and
-he was benumbed with cold and felt violent
-pains in his ears. When at his greatest elevation
-he was obliged to pull the valve to
-prevent the balloon from bursting, and eventually
-descended without mischance about
-seven miles from where Roberts had left
-him.</p>
-
-<p>It would be well now to describe a little
-more fully the way in which the “Montgolfier”
-and “Charlier” balloons were inflated.
-Each of the rival methods had its
-advantages and also its disadvantages. In
-the case of the hot-air balloon a shallow pit
-was dug, in which a quick-burning fire of
-chopped wool and straw was lighted, and
-the bag simply suspended over it. The
-inflation was thus rapid, and its cost comparatively
-small; the great drawback being
-that as the bag was of very light material,
-it ran considerable risk of being ignited by
-the fire; and all the while it was filling it
-was the uncomfortable duty of an unfortunate
-attendant to stand actually inside, roasted
-with the heat and choked with the smoke,
-armed with a paddle with which to beat out
-the flames whenever the bag caught alight.</p>
-
-<p><span class="pagenum"><a id="Page_30">30</a></span></p>
-
-<div id="ip_30" class="figcenter" style="max-width: 21.4375em;">
-  <img src="images/i_030.jpg" width="343" height="222" alt="" />
-  <div class="caption"><span class="smcap">Filling a Hot-Air Balloon.</span></div></div>
-
-<p>This danger of fire was done away with
-in the method of filling with hydrogen gas.
-The balloon, suspended from aloft as before,
-was connected by hose-pipes with a number
-of casks containing iron or zinc filings upon
-which dilute sulphuric acid was poured. The
-effect of mixing these substances together is
-to set up a brisk chemical action, in the course
-of which hydrogen gas is given off. In this
-case the hydrogen thus liberated came through
-the pipes and filled the balloon. The great disadvantages
-of this method of filling—which,
-it may here be mentioned, is occasionally
-employed at the present day—are the long
-time it occupies, the great labour entailed,
-and the enormous expense.</p>
-
-<p><span class="pagenum"><a id="Page_31">31</a></span></p>
-
-<div id="ip_31" class="figcenter" style="max-width: 32.9375em;">
-  <img src="images/i_031.jpg" width="527" height="324" alt="" />
-  <div class="caption"><span class="smcap">Filling a Hydrogen Gas Balloon.</span></div></div>
-
-<p><span class="pagenum"><a id="Page_32">32</a></span>
-It is said that when Roberts and Charles
-returned from their adventurous voyage they
-were immediately arrested and thrown into
-prison by order of the King, who considered
-it his duty to put a stop to his subjects risking
-their lives in such dangerous enterprises.
-Public opinion was too strong for him, however,
-and the two heroes were quickly released,
-and Charles was rewarded by a pension of
-£200 a year for life. This newly discovered
-art of sailing the heavens had indeed fired
-popular imagination to an extraordinary degree.
-Probably no invention has ever aroused
-greater enthusiasm. Not only all France
-but all the civilised world went wild with
-excitement for the time. Most extravagant
-statements were made and written. A new
-kingdom, it was declared, had been given to
-mankind to conquer; voyages might be made
-to the moon and stars, and now it would even
-be possible to take Heaven itself by storm!</p>
-
-<p>Ascent after ascent took place with the
-“Montgolfier” and the “Charlier,” both in
-France and in other countries; nor was it
-long before the balloon made its appearance
-in England. In August of the next summer
-(1784) a Mr Tytler of Edinburgh made some
-short voyages in a hot-air balloon of his own
-manufacture, and in the following month a
-much more adventurous attempt was successfully
-carried out in London by a young
-Italian of the name of Vincent Lunardi.</p>
-
-<p><span class="pagenum"><a id="Page_33">33</a></span>
-Lunardi was at this time secretary to the
-Neapolitan Ambassador. He was keenly
-interested in the subject of ballooning, and
-presently became fired with a desire to repeat
-in England those aerial experiments which
-were creating such a sensation on the Continent.
-He was
-only a poor man,
-and great difficulties
-stood in
-the way of accomplishing
-his
-object. He had
-to excite public
-interest in his
-venture, to collect
-subscriptions
-to defray the cost
-of his balloon,
-which was to be
-a “Charlier,” and
-to find a suitable
-site in London
-for the inflation
-and ascent. He met with disappointments
-and disasters enough to discourage a less
-enthusiastic man, but at length, after many
-troubles, on the 15th of September his balloon
-was ready and in process of filling in the
-grounds of the Honourable Artillery Company,
-in the city, where 150,000 people had
-assembled to witness the new wonder.</p>
-
-<div id="ip_33" class="figcenter" style="max-width: 12.875em;">
-  <img src="images/i_033.jpg" width="206" height="254" alt="" />
-  <div class="caption"><span class="smcap">Vincent Lunardi.</span></div></div>
-
-<p><span class="pagenum"><a id="Page_34">34</a></span>
-Still Lunardi’s trials were not at an end.
-The balloon was advertised to ascend at a
-certain hour; but the supply of gas was insufficient,
-so that when the time came it was
-only partially filled, and a long delay ensued.
-The vast crowd—more than half inclined to
-believe the whole thing an imposture—began
-to grow very impatient and unruly, and it was
-only the presence of the Prince of Wales,
-afterwards George the Fourth, which kept
-them in restraint for another hour while the
-filling continued.</p>
-
-<p>Even then the balloon was not full; but
-Lunardi felt he could wait no longer. He
-left behind him the companion who was to
-have accompanied him, substituted a smaller
-and lighter car, jumped inside and severed the
-ropes. Instantly the balloon rose high over
-the delighted city, as the crowd, led by the
-Prince himself, rent the air with their cheers.
-Wild was the excitement in every quarter.
-At Westminster King George the Third was
-in conference with Mr. Pitt and his other chief
-Ministers of State, but when it was known
-that Lunardi was in the sky the King exclaimed,
-“Gentlemen, we may resume our
-deliberations at pleasure, but we may never
-see poor Lunardi again!” and with one accord
-they adjourned to watch his progress through
-telescopes. Tradesmen rushed out of their
-shops, business men from their offices, even
-judge and jury from their courts.</p>
-
-<p><span class="pagenum"><a id="Page_35">35</a></span></p>
-
-<div id="ip_35" class="figcenter" style="max-width: 21.125em;">
-  <img src="images/i_035.jpg" width="338" height="486" alt="" />
-  <div class="caption"><span class="smcap">Lunardi’s Balloon.</span></div></div>
-
-<p><span class="pagenum"><a id="Page_36">36</a></span>
-Lunardi continued his voyage over the town
-into the country beyond. His balloon apparently
-attained a considerable height, for he
-found that the condensed moisture round the
-neck had frozen, and the gas, which to begin
-with had only two-thirds filled the balloon,
-presently expanded so much that he was
-obliged to untie the mouth to relieve the
-strain. He had taken up with him as companions
-a dog and a cat. The cat was very
-ill at ease in the cold of the upper regions,
-and he resolved to put her out; so, coming
-down to the ground, he handed her to a country
-woman standing in a field. Throwing out
-ballast, he then rose again and continued his
-voyage for some distance, eventually descending
-in a meadow near Ware. Some labourers
-were at work on the spot, but they at first
-refused to come near him, and a young woman
-was the first whom he could induce to help
-him out of his car. A stone with a long
-inscription, set up in a meadow in the parish
-of Standon, near Ware, marks to this day the
-place where the first of all English balloons
-touched ground.</p>
-
-<p>The following year witnessed a yet bolder
-enterprise. Blanchard, a French aeronaut,
-and Dr. Jeffries, an American, determined
-on an attempt to cross the Channel. On a
-winter’s day, early in 1785, they had their
-balloon inflated with hydrogen at Dover and
-boldly cast off to sea. The cold air appeared to<span class="pagenum"><a id="Page_37">37</a></span>
-chill the gas more than they had foreseen, and
-long before they were across the Channel their
-balloon began settling down upon the water.
-They threw out all their ballast, then a number
-of books they were carrying, then their anchor,
-extra ropes, and other gear. Still it seemed
-very doubtful whether they would reach the
-French coast, and as a last resort they began
-even to throw away their clothes to lighten
-the balloon. Fortunately at this moment the
-balloon shot up into the air again, and eventually
-brought them down in safety near the
-forest of Guiennes.</p>
-
-<p>So far, although several hundred ascents
-had been made, and in spite of the many and
-great dangers of the new-found art and the
-inexperience of the early voyagers, no fatal
-accident had marred the delight of sailing the
-skies. Disasters, however, were soon to come.
-It is sad to relate that the earliest to fall a
-victim was the brave Pilâtre de Rozier himself,
-the first of all men to go aloft in a balloon.
-Fired with a desire to emulate Blanchard and
-Jeffries, he decided that he himself would
-cross the Channel, this time from France to
-England; and to avoid, as he imagined, the
-cooling of the gas, which had so nearly proved
-disastrous on the previous occasion, he hit on
-the extraordinary idea of combining the principles
-of both the “Montgolfier” and “Charlier”
-balloons, and suspending a fire balloon
-beneath another filled with hydrogen gas. It<span class="pagenum"><a id="Page_38">38</a></span>
-seems a remarkable thing to us now that no
-one in those days saw the awful danger of
-such a combination. The inevitable happened.
-When the balloon was high in the air the
-furnace of the hot-air machine set fire to
-the highly inflammable hydrogen, a fearful
-explosion followed, and De Rozier and his
-companion were dashed to pieces.</p>
-
-<hr />
-<div class="chapter">
-<h2 class="vspace"><a id="CHAPTER_III"></a>CHAPTER III<br />
-
-<span class="subhead">FAMOUS BALLOON VOYAGES OF THE PAST</span></h2>
-</div>
-
-<p>Unfortunately the death of Pilâtre de
-Rozier was but the first of a series of fatal
-accidents which marred the early years of
-the history of ballooning. Shortly afterwards
-another French aeronaut, going up in too
-shallow a car, fell overboard when at a great
-height and was killed. A little later Count
-Zambeccari, an Italian, ascended in a hot-air
-balloon, which, on coming near the earth,
-became entangled in a tree. The furnace it
-carried set fire to the silk. To escape from
-the flames, the Count leapt to the ground
-and was killed on the spot. A few years
-after, Madame Blanchard, wife of the man
-who first crossed the English Channel, made
-a night ascent from Paris with a number of
-fireworks hung from the car. These, in some<span class="pagenum"><a id="Page_39">39</a></span>
-way, ignited the balloon, which fell to the
-ground, killing the unfortunate lady in its fall.</p>
-
-<p>On the other hand, many miraculous escapes
-are on record. One of the earliest balloonists
-spent the night alone aloft in the midst of a
-terrific thunder-storm, with the lightning flashing
-all around him, and yet descended in safety
-when morning broke. M. Garnerin, a famous
-French aeronaut of this date, also was lost in
-a storm. His balloon became unmanageable,
-and borne to earth was dashed against a
-mountain side, the occupant losing consciousness,
-until the balloon, which had ascended
-again, brought him safely down once more
-many miles away.</p>
-
-<p>A marvellous escape took place in 1808,
-when two Italians ascended in a gas balloon
-from Padua and attained a great height,
-estimated as approaching 30,000 feet. Here
-the balloon burst, and came precipitately to
-the ground; and yet, despite the terrific fall,
-the aeronauts escaped with their lives. The
-explanation of this seeming impossibility was,
-no doubt, the tendency which a balloon,
-emptied of its gas, possesses to form a natural
-parachute. During a rapid fall the lower
-part of the silk will, if loose, collapse into
-the upper portion to form a kind of open
-umbrella, and thus very effectually break the
-descent. Many balloonists have owed their
-safety in similar accidents to this fortunate
-fact.</p>
-
-<p><span class="pagenum"><a id="Page_40">40</a></span>
-The bursting of balloons when at high
-altitudes has already been referred to as
-happening on several previous occasions. It
-is a danger which is always present when a
-balloon is aloft, unless due precautions are
-taken, and the neglect of these precautions
-has probably led to more ballooning accidents
-than any other cause. The explanation is
-simply the varying pressure exerted upon the
-bag of gas by the weight of the atmosphere.
-When an inflated balloon is resting upon the
-ground, the vast ocean of air above it is
-pressing upon it with a weight of approximately
-fifteen pounds to the square inch, and
-it is this pressure which prevents the enclosed
-gas from expanding beyond a certain limit.
-The balloon then rises high into the air, where
-the weight of atmosphere pressing upon it is
-much diminished. The higher it rises the
-less the pressure becomes, and the gas it
-holds soon expands so much that, unless a
-vent is provided for it, the balloon will burst.
-At the present day the neck of a balloon is
-always left wide open when the balloon is in
-the air, to allow of the escape of the gas
-during the ascent.</p>
-
-<p>A perilous adventure befell Mr. Sadler, an
-English aeronaut, in 1812, whilst attempting
-to cross the Irish Channel. He started from
-Dublin with a wind which he hoped would
-carry him to Liverpool, but had gone only
-a short distance when he discovered a rent,<span class="pagenum"><a id="Page_41">41</a></span>
-which seemed to be increasing, in the silk
-of his balloon. Climbing the rigging with
-difficulty, he contrived to tie up the hole with
-his neckcloth. He was by this time over the
-sea, and having passed near the Isle of Man,
-found himself, as evening was approaching,
-close to the coast of North Wales. Here he
-endeavoured to seek a landing, but just at
-the critical moment the wind shifted, as it
-frequently does in this treacherous Channel,
-and he was quickly blown out to sea again.
-There he remained for another hour vainly
-endeavouring to make the land, and then,
-despairing of the attempt and seeing five
-ships beneath him, he came boldly down on
-the water, trusting they would come to his
-assistance.</p>
-
-<p>But he came down too far away from them,
-and one and all continued their course and
-took no notice. He was obliged, therefore, to
-throw out ballast and to rise into the air
-once more. The sun was now set upon the
-level of the water, but as the brave aeronaut
-rose he beheld it once more above the horizon,
-and was cheered by its beams. Presently he
-saw beneath him three more vessels, which
-signalled their willingness to help him, and
-he immediately came down on the sea again
-as close to them as he could. But the wind,
-now rising fast, caught the half empty silk
-of the balloon as it touched the waves, and
-bore it along over the surface of the water<span class="pagenum"><a id="Page_42">42</a></span>
-at a terrific pace; and although the vessels
-came after in full pursuit, they were unable
-to overtake it.</p>
-
-<p>Mr. Sadler then dropped his grappling-iron
-to act as a drag, and this not proving sufficient,
-took off his clothes and tied them to the iron
-as a further expedient. Still the vessels failed
-to overhaul him as he sped over the waves,
-and he was at length forced to let out a
-quantity of the gas still remaining, and so
-cripple the balloon. But this was a dangerous
-move, for the car now instantly sank; and the
-unfortunate man had to clutch the hoop and
-then the netting, to keep himself above water.
-Chilled and exhausted, and frequently plunged
-beneath the waves, he was soon at the point
-of death; for the nearest ship, though now
-close at hand, fearful of becoming entangled in
-the netting, still held off. Fainting as he was,
-Mr. Sadler yet managed to summon strength
-to call to the sailors to run their bowsprit
-through the balloon to stop its course, and
-this being done, he was hauled on board more
-dead than alive.</p>
-
-<p>Five years passed, and no more attempts
-were made to cross the treacherous Irish Sea,
-until Mr. Sadler’s own son, Mr. Windham
-Sadler, determined himself to make the attempt
-which had so nearly cost his father his
-life. Choosing the same starting-ground for
-his venture, he left Dublin on the longest day
-of 1817, and, fortune favouring him, reached<span class="pagenum"><a id="Page_43">43</a></span>
-the Welsh coast not far from Holyhead, after
-a voyage of 70 miles, lasting five hours. This
-was the last attempt to cross the Irish Channel,
-until November 1902, when the Rev. J. M.
-Bacon and Mr. Percival Spencer, starting
-from Douglas, in the Isle of Man, landed in
-a rocky glen 15 miles beyond Dumfries,
-after a journey of 80 miles, accomplished in
-three hours. Brave Mr. Windham Sadler
-unhappily lost his life in a terrible balloon
-accident in 1824.</p>
-
-<p>But a more celebrated balloonist, perhaps
-the most famous of all, had by this time come
-to the fore—Charles Green, fitly called “The
-Father of English Aeronautics.” It was he
-who first introduced a new method of balloon-filling,
-which quickly revolutionised the whole
-art and practice. This was nothing more or
-less than the employment of ordinary household
-or coal gas for inflation, in place of the
-costly and dangerous hydrogen.</p>
-
-<p>While balloons were inflated only with pure
-hydrogen—for the uncertain and dangerous
-method of filling with hot air was soon almost
-entirely abandoned—no great strides could be
-made in the art of sailing the skies. The
-filling of a large balloon eighty years ago cost
-no less than £250, and few people could be
-found willing to provide so much money for
-such a purpose. Coal gas, however, was by
-then to be found in every town of any consequence;
-and it was Green’s suggestion that<span class="pagenum"><a id="Page_44">44</a></span>
-though this gas might be greatly inferior to
-pure hydrogen in buoyancy or “lifting power,”
-it yet contained a sufficient quantity of hydrogen
-in it for all ordinary aeronautical purposes.</p>
-
-<p>The coronation of King George the Fourth
-was the occasion chosen by Green to put his
-new scheme to the test and fill a balloon with
-coal gas. The experiment was entirely successful,
-and henceforward balloon ascents became
-much commoner throughout the world,
-for Green’s discovery reduced the cost of filling
-tenfold, and the trouble and anxiety a hundredfold.
-Green himself became one of the most
-famous men of his day, and lived to make a
-thousand ascents, some of them of the most
-daring and exciting description.</p>
-
-<div id="ip_44" class="figcenter" style="max-width: 20em;">
-  <img src="images/i_045.jpg" width="320" height="492" alt="" />
-  <div class="caption"><span class="smcap">The Great Nassau Balloon.</span></div></div>
-
-<p>The most celebrated event in all his career,
-however, was the voyage of the Great Nassau
-Balloon, in November 1836. This voyage
-created a tremendous sensation at the time,
-and has always been considered one of the
-most adventurous enterprises in the whole history
-of aeronautics. How it came about was
-as <span class="locked">follows:—</span></p>
-
-<p>The managers of the Vauxhall Gardens,
-London, had made, with Mr. Green’s assistance,
-a very large and fine balloon of crimson
-silk, which stood eighty feet high and held
-90,000 cubic feet of gas, and which would
-carry, if needed, more than twenty persons.
-After it was made the proprietors proposed
-exhibiting it in Paris, and there was some<span class="pagenum"><a id="Page_46">46</a></span>
-question of how this valuable and fragile
-property had best be conveyed so far. Mr.
-Hollond, a young gentleman of considerable
-wealth, and a great lover of adventure, at
-once came forward, and proposed to take the
-balloon to the Continent by sky. His offer was
-accepted, and to make the ascent more noteworthy,
-it was decided to start from London
-and cross the sea by night, making as long a
-voyage as possible, although it was already
-winter time, and such a venture had never
-before been made.</p>
-
-<p>Preparations were at once commenced. The
-passengers were limited to three—Mr. Green,
-who was to manage the balloon, Mr. Hollond,
-and his friend Mr. Monck Mason. A ton of
-ballast was to be carried, provisions for a whole
-fortnight were laid in, and, since none could
-tell to within a thousand miles or more where
-they might be drifted, passports to every kingdom
-in Europe were obtained.</p>
-
-<p>They left London late one November day,
-and, rising under a north-west wind, skirted
-the north of Kent. Passing presently over
-Canterbury, they wrote a courteous message
-to the mayor, and dropped it in a parachute.
-Some time later, when the short autumn twilight
-was beginning to wane, they saw beneath
-them the gleam of white waves, and knew
-they had reached the boundary of the hitherto
-much-dreaded sea. Immediately afterwards
-they entered a heavy sea fog, which hid all<span class="pagenum"><a id="Page_48">48</a></span>
-things from their sight, and darkness and dead
-silence reigned around.</p>
-
-<div id="ip_48" class="figcenter" style="max-width: 32.1875em;">
-  <img src="images/i_047.jpg" width="515" height="342" alt="" />
-  <div class="caption"><span class="smcap">The Voyage Across the Channel.</span></div></div>
-
-<p>This lasted for fifty minutes, when they
-emerged from the cloud and found the bright
-lights of Calais beneath them. It was then
-quite dark, and they sped on through the
-night over unknown towns and villages whose
-lights gleamed fainter and fewer as the time
-went on. Then once again they entered the
-fog-bank, and for long hours no sign or sound
-of earth reached them more.</p>
-
-<p>As the night wore on they suddenly had
-a startling and alarming experience. Their
-balloon, which had been flying near the earth,
-was presently lightened by the discharge of
-ballast, and rose to a height of 12,000 feet into
-the air. Immediately afterwards, when all
-around was wrapped in the deepest silence
-and the blackest darkness, there came the
-sound of a sharp explosion from over their
-heads, followed by a rustling of the silk, and
-immediately the car received a violent jerk.
-The same thing was repeated again and yet
-again, and it is small wonder that the awful
-conviction then seized the party that there, in
-the darkness, in the dead of night, at that
-fearful height, their balloon had burst, and
-they were falling headlong to the ground.
-Great indeed must have been their relief
-when they found this was not the case, and
-discovered the real reason of their alarm.</p>
-
-<p>It is the tendency of a balloon when flying<span class="pagenum"><a id="Page_49">49</a></span>
-near the ground to assume an elongated or
-pear shape; and while their balloon was in
-this position the netting, which was wet with
-dew, had frozen hard and tight around it.
-Immediately they rose to great heights the
-gas had expanded, and the balloon had become
-globular in shape, with a result that the
-stiffened ropes sprang to their new position
-with the crack and jerk which had so startled
-the party. When day broke next morning
-they found themselves over long tracts of
-desolate forest land, and fearing they were
-approaching the wild, inhospitable steppes of
-Russia, they descended with all speed, and
-discovered they were in the Duchy of Nassau,
-in Germany, near Weilburg, where they were
-received with the wildest enthusiasm and
-delight. From start to finish they had accomplished
-a voyage of 500 miles in eighteen
-hours.</p>
-
-<p>After this event Green made many other
-voyages in the great Nassau balloon, and met
-with many exciting adventures. On one occasion,
-ascending in a violent gale of wind, he
-and a passenger covered twenty miles in a
-quarter of an hour, and, on descending near
-Rainham, in Essex, were blown along across
-the fields at a furious pace, until the anchor
-caught, and brought them up with such a
-wrench that it broke the ring and jerked the
-car completely upside down. Green and his
-friend only escaped from being thrown out by<span class="pagenum"><a id="Page_50">50</a></span>
-holding on to the ropes, and they were afterwards
-dragged wildly through fences and
-hedges until the balloon collapsed and came
-to a stand, though not before they had both
-been severely hurt.</p>
-
-<p>On another voyage the famous balloon met
-with serious injury, for having been some time
-above the clouds, during an ascent, Green
-found himself carried out to sea, and was
-obliged to come down in the water two miles
-north of Sheerness. As in the accident which
-befell Mr. Sadler in his attempt to cross the
-Irish Channel, the wind caught the silk and
-bore it along across the water too rapidly for
-a pursuing vessel to overtake it. Green then
-lowered his anchor, which by happy chance
-soon became entangled in a sunken wreck,
-and so brought the balloon up. A boat immediately
-put out to his assistance, and he
-and a companion were speedily rescued; but
-the balloon was so restive in the wind that
-it was dangerous to approach it. Green himself
-then suggested that a volley of musketry
-should be fired into the silk to expel the gas,
-and this was accordingly done and the balloon
-secured, though it afterwards took Green a
-fortnight’s hard labour to repair the damage
-done to the fabric.</p>
-
-<p>But the saddest event connected with the
-Nassau balloon was the fatal accident which
-befell Mr. Cocking in 1837, the year after the
-great Nassau voyage. Before relating this,<span class="pagenum"><a id="Page_51">51</a></span>
-however, it will be necessary to refer briefly
-to the history of a most important accessory
-of the balloon, hitherto unmentioned—the
-parachute.</p>
-
-<p>The name parachute comes from two French
-words, <i xml:lang="fr" lang="fr">parer</i>, to parry and <i xml:lang="fr" lang="fr">chute</i>, a fall, and it
-signifies a contrivance, made more or less in
-the form of an enormous umbrella, to break
-the fall from a balloon or other great height.
-The principle of the parachute was understood
-even before the invention of the balloon. In
-Eastern countries, in particular, where the
-umbrella or parasol has been in familiar use
-from earliest ages, parachutes were frequently
-employed by acrobats to enable them to jump
-safely from great elevations. In France also,
-at the end of the eighteenth century, a captive
-officer attempted to escape from a lofty prison
-by similar means.</p>
-
-<p>The aeronaut Blanchard was the first to
-construct a parachute for use from a balloon,
-his idea being that it might prove of service
-in the event of an accident while aloft. In
-1785 he let down from a great height a parachute
-to which was attached a dog in a basket,
-which reached the ground gently and safely.
-After this M. Garnerin, the famous balloonist
-already referred to, hazarded a parachute
-descent in person, and his attempt being
-eminently satisfactory, parachute descents became
-fairly common.</p>
-
-<p>In August 1814 Mr. Cocking, an English<span class="pagenum"><a id="Page_52">52</a></span>
-gentleman of scientific tastes, read a paper on
-parachutes, suggesting an amendment in their
-shape and construction, before the Society of
-Arts, for which he was awarded a medal. His
-theory was never put into practice, however,
-till twenty-three years later, when, fired no
-doubt by the interest aroused by the famous
-Nassau voyage, he resolved to put his invention
-to the test.</p>
-
-<p>He accordingly constructed his parachute,
-which was of enormous size, of unwieldy
-weight, and in shape rather resembling an
-umbrella turned inside out. Despite the
-warning of friends that the untried machine
-was unwisely built, he insisted on making a
-descent with it, and succeeded in persuading
-Mr. Green to take him and his craft aloft
-attached to the Nassau balloon.</p>
-
-<div id="ip_52" class="figcenter" style="max-width: 20.9375em;">
-  <img src="images/i_053.jpg" width="335" height="489" alt="" />
-  <div class="caption"><span class="smcap">Cocking’s Parachute.</span></div></div>
-
-<p>On the 27th of July 1837 they started from
-the Vauxhall Gardens, Mr. Green in the car
-accompanied by Mr. Edward Spencer (grandfather
-of the present well-known firm of
-aeronauts), his friend and frequent companion;
-Mr. Cocking seated in his machine slung
-below. A height of 5000 feet was attained,
-and then Mr. Cocking, after bidding a hearty
-farewell to the others, pulled the rope which
-liberated his parachute from the balloon.
-Relieved from the enormous weight, the latter
-rushed upwards into the sky with terrific
-velocity, the gas pouring in volumes from the
-valves and almost suffocating the occupants of<span class="pagenum"><a id="Page_54">54</a></span>
-the car. Their position, indeed, for the time
-was one of the greatest danger, and they were
-thankful to reach the earth unharmed, which
-they eventually did. But their fate was
-happier far than that of the luckless Cocking,
-whose parachute, after swaying fearfully from
-side to side, at length utterly collapsed, and
-falling headlong, was, with its inventor, dashed
-to pieces.</p>
-
-<p>While Charles Green was making his
-famous ascents in England, an equally celebrated
-aeronaut, John Wise, was pursuing the
-same art in America. During a long and
-successful career, unhappily terminated by an
-accident, Wise made many experiments in the
-construction of balloons, their shape, size,
-varnish, material, and so forth. His results,
-which he carefully put together, have been of
-the greatest value to balloon manufacturers
-until the present time. In the course of his
-many voyages he met with various exciting
-adventures. On one occasion while aloft he
-saw before him a huge black cloud of particularly
-forbidding aspect. Entering this, he
-found himself in the heart of a terrific storm.
-His balloon was caught in a whirlwind, and
-set so violently spinning and swinging that he
-was sea-sick with the motion, while, at the
-same time, he felt himself half-suffocated and
-scarce able to breathe. Within the cloud the
-cold was intense; the ropes of the balloon
-became glazed with ice and snow till they<span class="pagenum"><a id="Page_55">55</a></span>
-resembled glass rods; hail fell around, and the
-gloom was so great that from the car the silk
-above became invisible. “A noise resembling
-the rushing of a thousand mill-dams, intermingled
-with a dismal moaning sound of wind,
-surrounded me in this terrible flight.” Wise
-adds, “Bright sunshine was just above the
-clouds;” but though he endeavoured to reach
-it by throwing out ballast, the balloon had no
-sooner begun to rise upwards than it was
-caught afresh by the storm and whirled down
-again. Neither was he able, by letting out
-gas, to escape this furious vortex from beneath;
-and for twenty minutes he was swept
-to and fro, and up and down in the cloud,
-before he could get clear of it, or regain any
-control over his balloon.</p>
-
-<p>On another occasion Wise made an exceedingly
-daring and bold experiment. Convinced
-of the power which, as has before been said,
-an empty balloon has of turning itself into a
-natural parachute, he determined to put the
-matter to the test, and deliberately to burst
-his balloon when at a great height. For this
-purpose he made a special balloon of very thin
-material, and fastened up the neck so that
-there was no vent for the gas. He then
-ascended fearlessly to a height of 13,000 feet,
-where, through the expansion of the hydrogen
-with which it was filled, his balloon exploded.
-The gas escaped instantly, so that in ten
-seconds not a trace remained. The empty<span class="pagenum"><a id="Page_56">56</a></span>
-balloon at first descended with fearful rapidity,
-with a strange moaning sound as the air
-rushed through the network. Then the silk
-assuming parachute shape, the fall became less
-rapid, and finally the car, coming down in
-zigzags, turned upside down when close to
-the ground, and tossed Wise out into a field
-unhurt.</p>
-
-<p>It was John Wise’s great desire at one time
-to sail a balloon right across the Atlantic from
-America to Europe. Long study of the upper
-winds had convinced him that a regular current
-of air is always blowing steadily high aloft
-from west to east, and he believed that if an
-aeronaut could only keep his balloon in this
-upper current he might be carried across the
-ocean quicker, and with more ease and safety,
-than in the fastest steamship. Wise went so
-far as to work out all the details for this plan,
-the size of the balloon required, the ballast,
-provisions, and number of passengers; and
-only the want of sufficient money prevented
-him from actually making the attempt. Curiously
-enough, about the same time, Charles
-Green, in England, was, quite independently,
-working at the same idea, which he also believed,
-with proper equipment, to be quite
-feasible.</p>
-
-<hr />
-
-<p><span class="pagenum"><a id="Page_57">57</a></span></p>
-
-<div class="chapter">
-<h2 class="vspace"><a id="CHAPTER_IV"></a>CHAPTER IV<br />
-
-<span class="subhead">THE BALLOON AS A SCIENTIFIC INSTRUMENT</span></h2>
-</div>
-
-<p>So far, in our history of aeronautics, we have
-referred to ballooning only as a sport or pastime
-for the amusement of spectators, and for
-the gratifying of a love of adventure. It is
-now time to speak of the practical uses of the
-balloon, and how it has been employed as a
-most valuable scientific instrument to teach
-us facts about the upper atmosphere, its
-nature and extent, the clouds, the winds and
-their ways, the travel of sounds, and many
-other things of which we should otherwise be
-ignorant.</p>
-
-<p>Before the invention of the balloon men
-were quite unaware of the nature of the air
-even a short distance above their heads. In
-those days high mountain climbing had not
-come into fashion, and when Pilâtre de Rozier
-made the first ascent, it was considered very
-doubtful whether he might be able to exist in
-the strange atmosphere aloft. Charles and
-Roberts were the first to make scientific
-observations from a balloon, for they took up
-a thermometer and barometer, and made
-certain rough records, as also did other early
-aeronauts. The most interesting purely scientific<span class="pagenum"><a id="Page_58">58</a></span>
-ascents of early days, however, were made
-in the autumn of 1804, from Paris, by Gay
-Lussac, a famous French philosopher. He
-took up with him all manner of instruments,
-among them a compass (to see if the needle
-behaved the same as on earth), an apparatus to
-test the electricity of the air, thermometers,
-barometers, and hygrometers, carefully exhausted
-flasks in which to bring down samples
-of the upper air, birds, and even insects and
-frogs, to see how great heights affected them.
-In his second voyage his balloon attained the
-enormous altitude of 23,000 feet, or more than
-four miles and a quarter, and nearly 2000 feet
-higher than the highest peaks of the Andes.
-At this tremendous height the temperature
-fell to far below freezing-point, and the aeronaut
-became extremely cold, though warmly
-clad; he also felt headache, a difficulty in
-breathing, and his throat became so parched
-that he could hardly swallow. Nevertheless,
-undismayed by the awfulness of his position,
-he continued making his observations, and
-eventually reached the ground in safety, and
-none the worse for his experience.</p>
-
-<p>Gay Lussac’s experiments at least proved
-that though the air becomes less and less dense
-as we ascend into it, it remains of the same
-nature and constitution. His second voyage
-also showed that the limit to which man
-could ascend aloft into the sky and yet live
-had not yet been reached. Almost sixty<span class="pagenum"><a id="Page_59">59</a></span>
-years later other scientific ascents threw fresh
-light on this point, and also continued the
-other investigations that Gay Lussac had
-commenced.</p>
-
-<p>Towards the close of Charles Green’s famous
-career, scientific men in England woke up to
-the fact that the use of a balloon as an important
-means for obtaining observations on
-meteorology and other matters had of late
-been very much neglected. The British Association
-took the matter up, and provided
-the money for four scientific ascents, which
-were made by Mr. Welsh of Kew Observatory,
-a trained observer. Green was the
-aeronaut chosen to accompany him, and the
-balloon used was none other than the great
-Nassau balloon, of whose many and wonderful
-adventures we have already spoken. Green
-was then nearly seventy years of age, but his
-skill as an aeronaut was as great as ever, and
-Welsh was able to obtain many valuable
-records. During the last voyage a height was
-attained almost as great as that reached by
-Gay Lussac, and both men found much difficulty
-in breathing. While at this elevation
-they suddenly noticed they were rapidly approaching
-the sea, and so were forced to make
-a very hasty descent, in which many of the
-instruments were broken.</p>
-
-<p>The veteran Green lived to a ripe old age,
-dying in 1870, aged eighty-five. When a very
-old man he still delighted in taking visitors to<span class="pagenum"><a id="Page_60">60</a></span>
-an outhouse where he kept the old Nassau
-balloon, now worn out and useless, and, handling
-it affectionately, would talk of its famous
-adventures and his own thousand ascents, during
-which he had never once met with serious
-accident or failure. After his death the old
-balloon passed into the hands of another
-equally famous man, who, after Green’s retirement,
-took his place as the most celebrated
-English aeronaut of the day.</p>
-
-<p>This was Henry Coxwell. He was the son
-of a naval officer, and was brought up to the
-profession of a dentist. But when a boy of
-only nine years old he watched, through his
-father’s telescope, a balloon ascent by Green,
-which so fired his imagination that henceforward
-balloons filled all his thoughts. As
-he grew older the fascination increased upon
-him. He would go long distances to see
-ascents or catch glimpses of balloons in the
-air, and he was fortunate enough to be present
-at the first launching of the great Nassau
-balloon. He did not get the chance of a
-voyage aloft, however, till he was twenty-five;
-but after this nothing could restrain his
-ardour, and, throwing his profession to the
-winds, he made ascent after ascent on all possible
-occasions.</p>
-
-<p>In one of his early voyages he met with what
-he describes as one of the most perilous descents
-in the whole history of ballooning. The
-occasion was an evening ascent made from the<span class="pagenum"><a id="Page_61">61</a></span>
-Vauxhall Gardens one autumn night of 1848.
-The aeronaut was a Mr. Gypson, and besides
-Mr. Coxwell there were two other passengers,
-one of whom was the well-known mountaineer
-and lecturer, Albert Smith. A number of
-fireworks which were to be displayed when
-aloft were slung on a framework forty feet
-below the car.</p>
-
-<div id="ip_61" class="figcenter" style="max-width: 21.625em;">
-  <img src="images/i_061.jpg" width="346" height="241" alt="" />
-  <div class="caption floatl"><span class="smcap">Coxwell.</span></div>
-  <div class="caption floatr"><span class="smcap">Glaisher.</span></div>
-</div>
-
-<p>The balloon rose high above London, and
-the party were amazed and delighted with the
-strange and lovely view of the great city by
-night, all sight of the houses being lost in the
-darkness, and the thousands of gas lamps, outlining
-the invisible streets and bridges, twinkling<span class="pagenum"><a id="Page_62">62</a></span>
-like stars in a blue-black sky. Coxwell
-was sitting, not in the car, but in the ring of
-the balloon, and presently, when they were
-about 7000 feet above the town, he noticed that
-the silk, the mouth of which appears to have
-been fastened, was growing dangerously distended
-with the expanding gas. By his advice
-the valve was immediately pulled, but it was
-already too late; the balloon burst, the gas
-escaped with a noise like the escape of steam
-from an engine, the silk collapsed, and the
-balloon began to descend with appalling
-speed, the immense mass of loose silk surging
-and rustling frightfully overhead. Everything
-was immediately thrown out of the car to
-break the fall; but the wind still seemed to
-be rushing past at a fearful rate, and, to add
-to the horror of the aeronauts, they now came
-down through the remains of the discharged
-fireworks floating in the air. Little bits of
-burning cases and still smouldering touch-paper
-blew about them, and were caught in
-the rigging. These kindled into sparks, and
-there seemed every chance of the whole balloon
-catching alight. They were still a whole mile
-from the ground, and this distance they appear
-to have covered in less than two minutes.
-The house-tops seemed advancing up towards
-them with awful speed as they neared earth.
-In the end they were tossed out of the car
-along the ground, and it appeared a perfect
-marvel to them all that they escaped with only<span class="pagenum"><a id="Page_63">63</a></span>
-a severe shaking. This adventure did not in
-the least abate Coxwell’s ardour for ballooning,
-and exactly a week later he and Gypson successfully
-made the same ascent from the same
-place, and in the same balloon—and loaded
-with twice the number of fireworks!</p>
-
-<p>But Coxwell’s most celebrated voyage of all
-took place some years later, on the occasion
-of a scientific voyage made in company with
-Mr. James Glaisher. In 1862 the British Association
-determined to continue the balloon
-observations which Mr. Welsh had so successfully
-commenced, but this time on a larger
-scale. The observer was to be Mr. Glaisher
-of Greenwich Observatory, and Mr. Coxwell,
-who by this time had become a recognised
-aeronaut, undertook the management of the
-balloon. The first ascents were made in July
-and August. Mr. Glaisher took up a most
-elaborate and costly outfit of instruments,
-which, however, were badly damaged at the
-outset during a very rapid descent, made perforce
-to avoid falling in the “Wash.” On
-each occasion a height of over four miles was
-attained; but on the third voyage, which was
-in September, it was decided to try and reach
-yet greater altitudes.</p>
-
-<p>The balloon with its two passengers left Wolverhampton
-at 1 <span class="smcap smaller">P.M.</span>—the temperature on the
-ground being 59°. At about a mile high a
-dense cloud was entered, and the thermometer
-fell to 36°. In nineteen minutes a height of<span class="pagenum"><a id="Page_64">64</a></span>
-two miles was reached, and the air was at
-freezing-point. Six minutes later they were
-three miles aloft, with the thermometer still
-falling; and by the time four miles high was
-attained the mercury registered only 8°.</p>
-
-<p>In forty-seven minutes from the start five
-miles had been passed; and now the temperature
-was 2° below zero. Mr. Coxwell, who
-was up in the ring of the balloon and exerting
-himself over the management of it, found he
-was beginning to breathe with great difficulty.
-Mr. Glaisher, sitting quietly in the car watching
-his instruments, felt no inconvenience.
-More ballast was thrown out, and the balloon
-continued to rise apace; and soon Mr. Glaisher
-found his eyes growing strangely dim. He
-could not see to read his thermometer, or
-distinguish the hands of his watch. He noticed
-the mercury of the barometer, however, and
-saw that a height of 29,000 feet had been
-reached, and the balloon was still rising.
-What followed next had best be told in
-Mr. Glaisher’s own <span class="locked">words:—</span></p>
-
-<p>“Shortly after I laid my arm upon the table,
-possessed of its full vigour, but on being
-desirous of using it, I found it useless. Trying
-to move the other arm, I found it powerless
-also. Then I tried to shake myself and succeeded,
-but I seemed to have no limbs. In
-looking at the barometer my head fell over
-my left shoulder. I struggled and shook my
-body again, but could not move my arms.<span class="pagenum"><a id="Page_65">65</a></span>
-Getting my head upright for an instant only,
-it fell on my right shoulder; then I fell backwards,
-my body resting against the side of the
-car, and my head on the edge. I dimly saw
-Mr. Coxwell and endeavoured to speak, but
-could not. In an instant intense darkness
-overcame me; but I was still conscious, with
-as active a brain as at the present moment
-while writing this. I thought I had been
-seized with asphyxia, and believed I should
-experience nothing more, as death would come
-unless we speedily descended. Other thoughts
-were entering my mind, when I suddenly became
-unconscious as on going to sleep.” Mr.
-Glaisher adds: “I cannot tell anything of the
-sense of hearing, as no sound reaches the ear
-to break the perfect stillness and silence of the
-regions between six and seven miles above
-the earth.”</p>
-
-<p>Meanwhile, as stated, Mr. Coxwell was up
-in the ring, trying to secure the valve-line,
-which had become twisted. To do this he
-had taken off a pair of thick gloves he had
-been wearing, and in the tremendous cold of
-that awful region the moment his bare hands
-rested on the metal of the ring they became
-frost-bitten and useless. Looking down, he
-saw Mr. Glaisher in a fainting condition, and
-called out to him, but received no answer.
-Thoroughly alarmed by this time, he tried to
-come down to his companion’s assistance; but
-now <em>his</em> hands also had become lifeless, and<span class="pagenum"><a id="Page_66">66</a></span>
-he felt unconsciousness rapidly stealing over
-him.</p>
-
-<p>Quickly realising that death to both of
-them would speedily follow if the balloon
-continued to ascend, Mr. Coxwell now endeavoured
-to pull the valve-line; but he
-found it impossible to do so with his disabled
-hands. Fortunately he was a man of great
-bodily strength, as well as of iron nerve, and
-by a great effort he succeeded in catching
-the valve-line <em>in his teeth</em>. Then, putting his
-whole weight upon it, he managed to pull
-open the valve, and hold it until the balloon
-took a decided turn downwards. This saved
-them. As lower regions were reached, where
-the air was denser, Mr. Glaisher began to
-recover, and by the time they came to the
-ground neither of these two brave men
-were any the worse for their extraordinary
-experience.</p>
-
-<p>Neither Mr. Glaisher or Mr. Coxwell were
-able to note the exact elevation when they
-were at their greatest height; but from
-several circumstances they were convinced
-that it must have been 36,000 or 37,000 feet,
-or fully <em>seven miles high</em>. Later aeronauts
-have been inclined to doubt if this surmise
-can be quite correct; but whether it is so
-or not is of no great moment, for this great
-balloon ascent will always stand unrivalled
-in the history of ballooning. Since that day
-nearly as great, or perhaps even greater,<span class="pagenum"><a id="Page_67">67</a></span>
-heights have been reached in balloons; but
-nowadays those who attempt to ascend to
-great elevations always provide themselves,
-before they start, with cylinders of compressed
-oxygen gas. Then when the atmosphere
-aloft becomes so thin and rare as to
-make breathing difficult, they begin to fill
-their lungs with the life-giving gas from the
-cylinders, and at once recover.</p>
-
-<p>After this perilous voyage Glaisher and
-Coxwell made several other scientific balloon
-ascents. They met with various experiences.
-On one occasion, during a lofty ascent, they
-lost sight of the earth above the clouds for
-a while, but, the mist suddenly breaking, they
-found themselves on the point of drifting out
-to sea. Not a moment was to be lost, and
-both men hung on to the valve-line until
-it cut their hands. The result was a tremendously
-rapid descent. The balloon fell
-four and a quarter miles in less than a quarter
-of an hour, covering the last two miles in
-only four minutes. They reached earth close
-to the shore, and were fortunate to escape
-with only a few bruises, though all the instruments
-were once more broken in the shock.</p>
-
-<p>Mr. Glaisher was able to make many
-interesting notes of the condition of the
-winds and clouds at high levels. He observed
-how frequently different currents of
-air are blowing aloft in different directions
-at the same time. These differing winds<span class="pagenum"><a id="Page_68">68</a></span>
-affect the shape of the clouds among which
-they blow. High above the ground he
-frequently met with a warm wind blowing
-constantly from the south-west; and he believed
-that it is largely due to this mild air-stream
-passing always overhead that England
-enjoys such much less rigorous winters than
-other countries that lie as far north of the
-equator. This mildness of our climate has
-long been attributed to the Gulf Stream,
-that warm current of the sea which sweeps
-up from the tropics past our shores. But it
-may well be that there is besides an “Aerial
-Gulf Stream,” as Mr. Glaisher calls it, blowing
-constantly above our heads, which also serves
-to warm the air, and make our winter climate
-mild and moist.</p>
-
-<p>One fact these experiments seemed to
-establish was, that when rain is falling from
-an overcast sky, there is always a higher layer
-of clouds overhanging the lower stratum.
-Nothing surprised Mr. Glaisher more than
-the extreme rapidity with which the whole
-sky, up to a vast height, could fill up entirely
-with clouds at the approach of a storm.
-Another point noted was that, when a wind
-is blowing, the upper portion of the current
-always travels faster than that next the
-ground. This is due, of course, to the
-obstacles the wind meets as it sweeps over
-the earth, and which check its onward
-progress.</p>
-
-<p><span class="pagenum"><a id="Page_69">69</a></span>
-These, and very many other facts of the
-greatest interest to the meteorologist, were
-the outcome of Mr. Glaisher’s experiments.
-Later voyages of a similar kind have added
-greatly to our knowledge of the condition
-of the air, and it seems certain that in the
-future the balloon will be much more used
-by scientific men, and by its means they will
-be able to predict the weather more accurately
-and further ahead than at present, and learn
-many other things of which we are now in
-ignorance.</p>
-
-<hr />
-<div class="chapter">
-<h2 class="vspace"><a id="CHAPTER_V"></a>CHAPTER V<br />
-
-<span class="subhead">THE BALLOON IN WARFARE</span></h2>
-</div>
-
-<p>But there is another practical use for the
-balloon to which we must now refer, and
-that a most important one—its employment
-in war-time. It was not long after the invention
-of this ship of the skies that soldiers
-began to realise what a valuable aid it might
-be to them in times of battle, enabling them
-to see inside a camp, fort, or beleaguered
-city, or watch the enemy’s movements from
-afar off. The opportunity for first putting
-the matter to the test very soon arose.
-Within a very few years of the earliest balloon
-experiments in France there commenced<span class="pagenum"><a id="Page_70">70</a></span>
-in that very country the dreadful French
-Revolution, and soon the nation found itself
-at war with all the world, and forced to hold
-its own, alone, against the armies of Europe.
-This danger quickened the minds of all to
-the importance of making use of every possible
-means of defence in their power. It
-was suggested that the newly discovered
-balloon might be turned to account, and
-immediately a school for military ballooning
-was established near Paris. Fifty young
-military students were trained in the new
-art, and suitable balloons were provided.
-The value of their work was soon apparent.
-In June 1794 was fought the battle of
-Fleurus, between the French and Austrians.
-Before the fight a balloon party had carefully
-observed the position of the Austrian forces,
-and, through the information they gave, the
-French were able to gain a speedy and decisive
-victory. In this way, and at this early
-stage, the value of the war balloon was at
-once established.</p>
-
-<p>Curiously enough, Napoleon would make
-no use of balloons in his campaigns, and even
-did away with the balloon school at Paris.
-The reason given for his prejudice is a curious
-one. At the time of his coronation a large,
-unmanned balloon, gaily decorated, and carrying
-thousands of lights, was sent up from
-Paris during the evening’s illuminations. It
-was a very beautiful object, and behaved<span class="pagenum"><a id="Page_71">71</a></span>
-splendidly, sailing away into the night, amidst
-great popular rejoicing, until it was lost to
-sight in the darkness. But at daybreak next
-morning it was seen approaching the city of
-Rome, where it presently arrived, actually
-hovering over St. Peter’s and the Vatican.
-Then, as if its mission were fulfilled, it settled
-to earth, and finally fell in Lake Bracciano.
-But as it fell it rent itself, and left a portion
-of the crown with which it was ornamented
-on the tomb of the Roman Emperor Nero.
-Napoleon, who was always a superstitious
-man, saw in this extraordinary voyage some
-dreadful forecast of his own fate. He was
-much disturbed, and forebade the matter
-ever to be mentioned in his presence; nor
-would he henceforward have any more to
-do with balloons.</p>
-
-<div id="ip_71" class="figcenter" style="max-width: 21.625em;">
-  <img src="images/i_072.jpg" width="346" height="269" alt="" />
-  <div class="caption"><span class="smcap">American War Balloon.</span></div></div>
-
-<p>Military balloons were used by the French
-again, however, during their war in Africa in
-1830. The Austrians also used them in 1849,
-and it is said the Russians had them at the
-siege of Sebastopol in the Crimean War. A
-Montgolfier balloon was made use of by the
-French in 1862 at the battle of Solferino;
-and the Americans also employed balloons
-during the Civil War a year later. The
-American war balloons were comparatively
-small ones, inflated with hydrogen. The
-hydrogen was manufactured in the way already
-described, by pouring dilute sulphuric
-acid upon scrap-iron. For making the gas<span class="pagenum"><a id="Page_72">72</a></span>
-upon the field two large tanks of wood called
-“generators” were used. In these the water
-and scrap-iron were placed and the acid poured
-upon them, the gas produced being carried
-to the balloon through pipes, passing first
-through vessels filled with lime-water to cool
-and purify it. When on the march four
-waggons were sufficient to carry the whole
-apparatus. The inflation, which took some
-time, was made as close to the scene of
-action as was considered safe, and when
-the balloon was once full a party of men<span class="pagenum"><a id="Page_73">73</a></span>
-could easily tow it about to where it was
-needed.</p>
-
-<p>But the time when the balloon was most
-largely and most usefully used in time of
-war was during the Siege of Paris. In the
-month of September 1870, during the Franco-Prussian
-War, Paris was closely invested by
-the Prussian forces, and for eighteen long
-weeks lay besieged and cut off from all the
-rest of the world. No communication with
-the city was possible either by road, river,
-rail, or telegraph, nor could the inhabitants
-convey tidings of their plight save by one
-means alone. Only the passage of the air
-was open to them.</p>
-
-<p>Quite at the beginning of the siege it occurred
-to the Parisians that they might use
-balloons to escape from the beleaguered town,
-and pass over the heads of the enemy to safety
-beyond; and inquiry was at once made to
-discover what aeronautical resources were at
-their command.</p>
-
-<p>It was soon found that with only one or
-two exceptions the balloons actually in existence
-within the walls were unserviceable or
-unsuitable for the work on hand, being mostly
-old ones which had been laid aside as worthless.
-One lucky discovery was, however, made.
-Two professional aeronauts, of well-proved
-experience and skill, were in Paris at the time.
-These were MM. Godard and Yon, both of
-whom had been in London only a short time<span class="pagenum"><a id="Page_74">74</a></span>
-before in connection with a huge captive balloon
-which was then being exhibited there.
-They at once received orders to establish two
-balloon factories, and begin making a large
-number of balloons as quickly as possible.
-For their workshops they were given the use
-of two great railway stations, then standing
-idle and deserted. No better places for the
-purpose could be imagined, for under the
-great glass roofs there was plenty of space,
-and the work went on apace.</p>
-
-<p>As the balloons were intended to make only
-one journey each, plain white or coloured
-calico (of which there was plenty in the
-city), covered with quick-drying varnish, was
-considered good enough for their material.
-Hundreds of men and women were employed
-at the two factories; and altogether some
-sixty balloons were turned out during the
-siege. Their management was entrusted to
-sailors, who, of all men, seemed most fitted
-for the work. The only previous training
-that could be given them was to sling them
-up to the roof of the railway stations in a
-balloon car, and there make them go through
-the actions of throwing out ballast, dropping
-the anchor, and pulling the valve-line. This
-was, of course, very like learning to swim on
-dry land; nevertheless, these amateurs made,
-on the whole, very fair aeronauts.</p>
-
-<p>But before the first of the new balloons was
-ready experiments were already being made<span class="pagenum"><a id="Page_75">75</a></span>
-with the few old balloons then in Paris. Two
-were moored captive at different ends of the
-town to act as observation stations from
-whence the enemy’s movements could be
-watched. Captive ascents were made in them
-every few hours. Meanwhile M. Duruof, a
-professional aeronaut, made his escape from
-the city in an old and unskyworthy balloon
-called “Le Neptune,” descending safely outside
-the enemy’s lines, while another equally
-successful voyage was made with two small
-balloons fastened together.</p>
-
-<p>And then, as soon as the possibility of
-leaving Paris by this means was fully proved,
-an important new development arose. So
-far, as was shown, tidings of the besieged city
-could be conveyed to the outside world; but
-how was news from without to reach those
-imprisoned within? The problem was presently
-solved in a most ingenious way.</p>
-
-<p>There was in Paris, when the siege commenced,
-a society or club of pigeon-fanciers
-who were specially interested in the breeding
-and training of “carrier” or “homing” pigeons.
-The leaders of this club now came forward
-and suggested to the authorities that, with
-the aid of the balloons, their birds might be
-turned to practical account as letter-carriers.
-The idea was at once taken up, and henceforward
-every balloon that sailed out of Paris
-contained not only letters and despatches, but
-also a number of properly trained pigeons,<span class="pagenum"><a id="Page_76">76</a></span>
-which, when liberated, would find their way
-back to their homes within the walls of the
-besieged city.</p>
-
-<p>When the pigeons had been safely brought
-out of Paris, and fallen into friendly hands beyond
-the Prussian forces, there were attached
-to the tail feathers of each of them goose
-quills, about two inches long, fastened on by a
-silken thread or thin wire. Inside these were
-tiny scraps of photographic film, not much
-larger than postage stamps, upon which a large
-number of messages had been photographed
-by microscopic photography. So skilfully was
-this done that each scrap of film could contain
-2500 messages of twenty words each. A bird
-might easily carry a dozen of these films, for
-the weight was always less than one gramme,
-or 15½ grains. One bird, in fact, arrived in
-Paris on the 3rd of February carrying eighteen
-films, containing altogether 40,000 messages.
-To avoid accidents, several copies of the same
-film were made, and attached to different birds.
-When any of the pigeons arrived in Paris their
-despatches were enlarged and thrown on a
-screen by a magic-lantern, then copied and
-sent to those for whom they were intended.</p>
-
-<p>This system of balloon and pigeon post
-went on during the whole siege. Between
-sixty and seventy balloons left the city, carrying
-altogether nearly 200 people, and two
-and a half million letters, weighing in all
-about ten tons. The greater number of<span class="pagenum"><a id="Page_77">77</a></span>
-these arrived in safety, while the return journeys,
-accomplished by the birds, were scarcely
-less successful. The weather was very unfavourable
-during most of the time, and cold
-and fogs prevented many pigeons from making
-their way back to Paris. Of 360 birds brought
-safely out of the city by balloon only about
-60 returned, but these had carried between
-them some 100,000 messages.</p>
-
-<p>Of the balloons themselves two, each with its
-luckless aeronaut, were blown out to sea and
-never heard of more. Two sailed into Germany
-and were captured by the enemy, three
-more came down too soon and fell into the
-hands of the besieging army near Paris, and
-one did not even get as far as the Prussian
-lines. Others experienced accidents and
-rough landings in which their passengers were
-more or less injured. Moreover, each balloon
-which sailed by day from the city became
-at once a mark for the enemy’s fire; so much
-so that before long it became necessary to
-make all the ascents by night, under cover
-of darkness.</p>
-
-<p>They were brave men indeed who dared
-face the perils of a night voyage in an untried
-balloon, manned by an unskilled pilot,
-and exposed to the fire of the enemy, into
-whose hands they ran the greatest risk of
-falling. It is small wonder there was much
-excitement in Paris when it became known
-that the first of the new balloons made during<span class="pagenum"><a id="Page_78">78</a></span>
-the siege was to take away no less a personage
-than M. Gambetta, the great statesman, who
-was at the time, and for long after, the leading
-man in France. He made his escape by
-balloon on the 7th of October, accompanied
-by his secretary and an aeronaut, and managed
-to reach a safe haven, though not before
-they had been vigorously fired at by shot
-and shell, and M. Gambetta himself had
-actually been grazed on the hand by a
-bullet.</p>
-
-<p>Another distinguished man who hazarded the
-same perilous feat, though for a very different
-reason, was M. Janssen, a famous astronomer.
-On the 22nd of December of that year there
-was to take place an important total eclipse
-of the sun, which would be visible in Spain
-and Algeria. It had long been M. Janssen’s
-intention to observe this eclipse, and for this
-purpose he had prepared a special telescope
-and apparatus; but when the time drew near
-he found himself and his instruments shut up
-in besieged Paris, with no possible means of
-escape except the dangerous and desperate
-hazard of a voyage by sky.</p>
-
-<p>But so great was the astronomer’s enthusiasm
-for his work, that he resolved to
-brave even this risk. Taking the essential
-parts of his telescope with him, and, as aeronaut,
-an active young sailor, he set sail in
-the darkness of a winter’s morning, long
-before dawn, passed safely over the enemy’s<span class="pagenum"><a id="Page_79">79</a></span>
-lines, and continued the voyage till nearly
-mid-day, when they sighted the sea, and
-came down near the mouth of the river
-Loire, having travelled 300 miles in little
-more than five hours. Neither Janssen or
-his telescope were injured in the descent,
-though the wind was high at the time; and
-both reached Algeria in time for the eclipse.
-It must have been a most bitter disappointment
-to the ardent astronomer, after all his
-exertions, that when the great day arrived
-the sun was hidden by clouds, and he was
-unable to observe the sight for which he had
-risked so much.</p>
-
-<p>Since the Franco-Prussian war, military
-ballooning has been largely developed, and
-now all great armies possess their properly
-equipped and trained balloon corps. The
-balloons in use in the British Army at the
-present day are made, not of silk, but of gold-beater’s
-skin, a very thin, but extremely tough
-membrane prepared from the insides of oxen.
-This is, of course, much stronger and more
-durable than ordinary balloon fabric, but much
-more expensive. The balloons are comparatively
-small ones, of 10,000 feet capacity, and
-are inflated with hydrogen. The hydrogen is
-now no longer made upon the field, but is
-manufactured in special factories, and carried
-compressed in large steel cylinders. By this
-means the time occupied in filling the balloon
-is much reduced, but the weight of the<span class="pagenum"><a id="Page_80">80</a></span>
-cylinders is very great. As will be remembered,
-balloons were made of considerable use
-during the late Boer War. At the siege of
-Ladysmith they were thought of much value
-in directing the fire of the British Artillery,
-and again at Spion Kop and Magersfontein
-are said to have done good service.</p>
-
-<p>So far we have shown of what use balloons
-may be in times of peace and war. Every
-year sees fresh improvements and developments
-in balloons for military purposes and in
-those employed for making meteorological and
-other similar observations; and there is no
-doubt that great advances may shortly be
-expected in both these directions. But there
-is yet another and totally different science to
-which the balloon may lend its aid, and help
-greatly to add to our knowledge; and this is
-the science of geography, or the study of the
-earth’s surface.</p>
-
-<p>One of the earliest ideas suggested by Montgolfier’s
-invention was that the balloon might
-be turned to practical account in the exploring
-of unknown and inaccessible tracts of the world.
-It was suggested that in a balloon men might
-sail over and survey country that they were
-not able to reach in any other way. Deserts
-could be crossed in this fashion, forests and
-mountain ranges, and even the desolate ice-tracts
-of the North and South Poles.</p>
-
-<p>All this is, in truth, perfectly possible, and
-another day may be accomplished; but at<span class="pagenum"><a id="Page_81">81</a></span>
-present great difficulties and dangers stand in
-the way of exploring by balloon, and up to
-the present time, with one great exception,
-no special attempt has been made. It has
-already been mentioned that both Wise and
-Green wished to cross the Atlantic by sky,
-and indeed at the present moment plans are
-actually being made on the Continent for a
-similar voyage. This, however, can scarcely
-be called exploring. Other suggestions
-which may presently be put to the test
-are the crossing of the Sahara, and also of
-another great desert in Central Arabia, into
-which no white man has ever succeeded in
-penetrating. Recent expeditions both to the
-North and South Poles have also taken with
-them balloons to be used captive for the
-observation of the state of the ice ahead,
-and for obtaining wide views around.</p>
-
-<p>The one great attempt at exploring by
-balloon which has so far been made has, unfortunately,
-met with hopeless and terrible
-disaster—this was the ill-fated voyage to the
-North Pole of Andrée and his companions.
-The idea of reaching the Pole by balloon
-was first proposed many years ago, and both
-French and English aeronauts at different
-times have made suggestions as to the best
-way in which it might be accomplished.
-Nothing, however, was attempted until about
-the year 1894, when M. S. A. Andrée, a well-known
-Swedish balloonist, who had already<span class="pagenum"><a id="Page_82">82</a></span>
-met with exciting experiences in the air, made
-up his mind actually to risk the venture.</p>
-
-<p>His plan was to take a suitable balloon, and
-the apparatus for inflating it, to a place as far
-north as a ship could safely go, then to fill
-the balloon and wait for a favourable wind
-which should carry him right over the Pole and
-beyond until inhabited country was reached.
-By the summer of 1896 all his preparations
-were complete. His balloon was an enormous
-one, capable of holding 162,000 cubic feet of
-gas, and was fitted with a rudder sail and a
-long trail-rope, by means of which Andrée
-hoped to be able to some extent to steer his
-course across the ice. Two companions were
-to accompany him on his voyage, and on June
-7th the party embarked with all their apparatus,
-and were conveyed to Spitzbergen.</p>
-
-<p>They landed at Dane’s Island, where their
-first work was to build themselves a shed.
-They then got their gas-making apparatus
-into order, and filled the balloon, and by the
-27th of July were all ready for a start. But
-the wind was contrary, and day after day they
-waited in vain for a change, until at last the
-captain of the ship which had brought them
-warned them they would be frozen in for the
-winter unless they returned without delay.
-Very reluctantly, therefore, they abandoned
-their venture for that year, and went home,
-leaving behind them the shed and gas-generator
-for another occasion.</p>
-
-<p><span class="pagenum"><a id="Page_83">83</a></span>
-The winter passed, and by the end of next
-May they were back again at Dane’s Island.
-Their shed and apparatus had suffered damage
-during their absence, and had to be repaired,
-and their preparations were not complete until
-the end of June. But again the wind was
-contrary, and for three weeks more they waited
-impatiently. All this while the balloon remained
-inflated, and by the long delay must
-have lost a considerable amount of its buoyancy.
-At last the wind changed, and though
-it was not exactly in the direction they wished,
-being a little west of south, instead of due
-south, Andrée felt he could wait no longer,
-and at half-past two in the afternoon of July
-11th set sail, with his two friends, on his daring
-voyage.</p>
-
-<p>What followed is soon told. Eleven days
-later one of the carrier pigeons taken by
-Andrée in his balloon was picked up by a
-fishing-boat off Spitzbergen. Fastened to it
-was the following message:—“July 13th,
-12.30 <span class="smcap smaller">P.M.</span> 82° 2´ north lat., 15° 5´ east long.
-Good journey eastward. All goes well on
-board.—<span class="smcap">Andrée.</span>”</p>
-
-<p>This was the latest news ever heard of the
-ill-fated voyagers. Later on two of Andrée’s
-buoys, thrown out from the balloon, were
-found; but the messages these contained were
-dated on the evening of July 11th, only a few
-hours after the start. If the date of the first
-found message can be relied on, it would seem<span class="pagenum"><a id="Page_84">84</a></span>
-that after forty-eight hours Andrée’s balloon
-was still sailing well, and he had already
-accomplished the longest voyage aloft ever
-made.</p>
-
-<p>Of his subsequent fate, and that of his companions,
-nothing is known. Search expeditions
-have failed to find any trace of them or
-of the balloon, and the many rumours received
-have been proved to be false. There can be
-no possible reason to doubt that these brave
-men perished in their daring attempt, and that
-their bones lie in the Arctic Sea or in the waste
-of ice and snow that surrounds the Pole.</p>
-
-<hr />
-<div class="chapter">
-<h2 class="vspace"><a id="CHAPTER_VI"></a>CHAPTER VI<br />
-
-<span class="subhead">THE AIRSHIP</span></h2>
-</div>
-
-<p>So far in our story we have traced the origin
-and progress of the balloon, showing how from
-small beginnings it has grown to be an important
-invention, of great use to the scientific
-observer, the soldier, and the explorer, and the
-means of teaching us much fresh knowledge.</p>
-
-<p>But in spite of the high hopes of early
-aeronauts, and the extravagant prophecies
-made when the first balloons ascended into
-the sky, it has long been evident that the
-balloon alone has not solved the problem of
-human flight or accomplished the conquest<span class="pagenum"><a id="Page_85">85</a></span>
-of the air. An ordinary balloon is, in fact,
-nothing more than a mere lifting machine,
-no more capable of sailing the sky, in the
-proper sense of the word, than a cork floating
-in the water is capable of sailing the sea. It
-has no movement of its own, but drifts simply
-at the mercy of the wind, and quite beyond
-control. By the discharge of ballast, or by
-the letting out of gas, the aeronaut can indeed
-cause it to rise or sink at pleasure, and sometimes
-when two currents of air are blowing
-aloft in different directions at the same time
-he may, by passing from one to the other,
-“tack” his balloon to some extent across the
-sky. Otherwise he has no power of guiding
-or directing it in the least degree, and should
-he lose sight of the earth above the clouds,
-has even no method of telling in which
-direction he is travelling.</p>
-
-<p>Early inventors thought they would be able
-to steer balloons by means of sails, like a boat,
-but they soon found that this was impossible.
-The effect of hoisting a sail at the side of
-a balloon was merely to swing the balloon
-round until the sail was in front, while meantime
-it continued its course unaltered. The
-use of a rudder and other means were also
-tried, but without success; nor can such
-methods ever hope to succeed so long as a
-balloon floats in the air at the same pace as
-the wind that carries it forward. A balloon
-travelling with the wind may be compared<span class="pagenum"><a id="Page_86">86</a></span>
-to a boat drifting idly with the tide. As
-long as she drifts she refuses to answer her
-rudder, which swings idly. But presently the
-boatman hoists a sail, and the wind carries the
-boat onwards faster than the tide, and then
-immediately the rudder comes into action.
-Or should there be no wind, he may accomplish
-the same thing by dragging an anchor
-or other weight in the water, and so slowing
-his boat down until it moves slower than
-the current; he will then again find that his
-boat will answer her helm.</p>
-
-<p>To steer his course in a balloon, therefore,
-the aeronaut must so arrange that he is
-travelling faster or slower than the wind in
-which he finds himself. To travel faster, he
-must employ some sort of engine or motor
-to drive his craft onwards. To travel slower,
-he must trail something along the ground
-beneath to act as a drag.</p>
-
-<p>Part of the equipment of every balloon is
-a long trail-rope, which, when the balloon
-is aloft, hangs some 300 feet below the car.
-The object of this rope is to break the force
-of the fall when the balloon comes down to
-the earth at the end of the voyage. In the
-greater number of cases a balloon, in its final
-swoop to the ground, falls the last few hundred
-feet with considerable, and often uncomfortable,
-speed. But when provided with a trail-rope,
-as it descends more and more of the
-heavy rope will lie along the ground, and so<span class="pagenum"><a id="Page_87">87</a></span>
-lighten the weight of the balloon, and lessen
-the shock of falling.</p>
-
-<p>If then a trail-rope were used of such length
-that it would sweep along the ground while
-the balloon was flying in the air, the effect
-would be to put a drag or brake on the
-balloon, and so render it capable of being
-steered to some extent with a sail; and this
-is what has actually been done in all attempts
-of the kind. But since a long rope dragging
-rapidly across the country is a very dangerous
-object, capable of doing great damage, and
-also liable to catch in trees and other obstacles,
-such experiments can only be tried with safety
-over the sea, or, as in the case of Andrée’s
-voyage, over desert or uninhabited country.</p>
-
-<p>The best way of steering a balloon, therefore,
-is to provide it with some mechanical
-power which shall urge it onwards at a greater
-speed than the wind; and when this is done,
-it has ceased to be a balloon in the popular
-sense of the word, and has become an “airship.”</p>
-
-<p>There is a great deal of confusion between
-the terms “airship,” and “flying machine,”
-and the two words are often considered as
-meaning the same thing. But while, strictly
-speaking, neither word in itself has any very
-definite meaning, it is gradually becoming
-more general to apply them to two widely
-different objects. According to this plan,
-although both names stand for an aerial vessel<span class="pagenum"><a id="Page_88">88</a></span>
-capable of travelling in the sky by its own
-motion, an airship is a machine supported
-in the air by reason of its buoyancy, while
-a flying machine is kept aloft only by virtue
-of its onward movement.</p>
-
-<p>In other words, part of the construction of
-an airship consists of a bag or balloon, filled
-with gas or hot air, which causes the whole
-to rise and maintain its position in the air.
-This balloon part is quite independent of the
-machinery which drives the airship forward,
-and indeed if the engine ceases working, the
-vessel becomes nothing more than an ordinary
-balloon in its nature, and will behave like
-one. An airship, therefore, is in principle
-an apparatus lighter than air.</p>
-
-<p>A flying machine, on the contrary, is
-heavier than air, and maintains its position
-aloft merely by the power it obtains from its
-engines, assisted by its special construction.
-The inventors of flying machines take as
-their analogy the flight of birds. Birds are
-creatures heavier than air, which yet manage
-to rise and fly by reason of the strength and
-construction of their wings. In the same
-way the heavy flying machine essays to fly
-by the power of its machinery. And, as a
-bird aloft, if its wings became disabled, would
-instantly drop towards earth, so a flying
-machine would immediately commence to
-fall if its engine stopped or ceased to move
-with sufficient power. The airship and the<span class="pagenum"><a id="Page_89">89</a></span>
-flying machine, therefore, may be regarded
-as rival aerial vessels, and their inventors and
-advocates, sometimes known as “lighter-than-air-ites”
-and “heavier-than-air-ites,” though
-both working for the same end, are endeavouring
-to accomplish their aim by widely different
-methods.</p>
-
-<p>Up to the present day the airship—to which
-we will first turn our attention—has been
-much more largely and successfully experimented
-with than the flying machine. It is,
-however, the opinion of many, including the
-great authority Sir Hiram Maxim, that in the
-future the flying machine will become the
-more important invention of the two. “In
-all Nature,” says Sir Hiram, “we do not find
-a single balloon. All Nature’s flying machines
-are heavier than air.” And from this he argues
-that, as Nature is ever our best guide and example,
-a flying machine heavier than air will
-be in the end most likely to succeed.</p>
-
-<p>One of the earliest airships which achieved
-any success was invented by a Frenchman,
-M. Giffard, about the year 1852. He made
-his balloon of an elongated or cigar shape, a
-form adopted by airship inventors as offering
-less resistance to the air than the ordinary
-globular or pear shape. To this balloon,
-which was 104 feet long and 39 feet in
-diameter, he attached a steam-engine of
-three-horse power, weighing 462 lbs. and
-working a screw-propeller, which, by its<span class="pagenum"><a id="Page_90">90</a></span>
-rapid revolutions, urged the balloon onwards
-through the air, even as the screw of a steamship
-urges the vessel through the water.
-With this apparatus he succeeded on one
-occasion, for a very short while, in obtaining a
-speed of six and a half miles an hour. Twenty
-years later another Frenchman, M. Dupuy de
-Lôme, constructed another airship; but fearing
-to place an engine so near the gas of his balloon,
-he used the strength of eight men to work
-his screw. This was a very wasteful mode of
-supplying energy, for the weight of the men
-was very great in proportion to their strength,
-and this machine, during its trial, did not
-attain as great a speed as Giffard’s. Twelve
-years after a third Frenchman, M. Tissandier,
-took up the same experiments. His elongated
-balloon was smaller than the two previous,
-and his engine was an electric motor of one
-and a half horse-power. On one occasion
-a speed of nearly eight miles an hour was
-attained.</p>
-
-<p>By this time the French Government had
-become interested in the work, and provided
-money to continue investigations. The result
-of this was that in 1885 two officers of the
-French army, Captains Renard and Krebs,
-brought out by far the most successful airship
-yet constructed. It was 165 feet long, 27 feet
-in diameter, and was driven by an electric
-motor of nine horse-power. That this machine
-proved itself perfectly capable of being guided<span class="pagenum"><a id="Page_91">91</a></span>
-in the air is amply shown by the fact that
-it returned to its shed five times out of the
-seven on which it was publicly taken out.
-It also attained a speed of fourteen miles an
-hour, and indeed it would seem that Renard
-and Krebs, although their names are now
-almost forgotten, accomplished nearly as great
-things twenty years ago as the popular airship
-inventors of the present day.</p>
-
-<p>One of the greatest difficulties with which
-early inventors had to contend was the enormous
-weight of their engines. The machinery
-they were obliged to use to drive their airships
-through the air weighed more than their balloons,
-unless made of unwieldy size, had power
-to lift. The same difficulty indeed exists at
-the present time, though to a much less degree.
-Of late years, and especially since the introduction
-of the motor-car, great progress has
-been made in the construction of light but
-powerful engines, or motors, and the employment
-of petrol vapour instead of coal or oil
-has very greatly lessened the weight of the
-fuel which has to be carried.</p>
-
-<p>In consequence of this improvement many
-airships have recently been made which have
-met with varying success, and many more are
-at the present moment in process of construction.
-Among the host of inventors, whose
-names it would here be impossible even to mention,
-three stand out from the rest in special
-prominence—Zeppelin, Santos Dumont, and<span class="pagenum"><a id="Page_92">92</a></span>
-Stanley Spencer—all three the inventors of
-airships which have, by actual experience,
-proved their power of steering a course across
-the sky.</p>
-
-<p>Of these rival airships, by far the largest
-and most elaborate was that built by the first
-named, Count Zeppelin, a distinguished veteran
-soldier of the German army. For many
-years he had spent his time and fortune in
-making experiments in aerial navigation, and
-at length in 1900, having formed a company
-and collected a large sum of money for the
-purpose, he produced an enormous airship,
-which, from its size, has been compared to a
-man-of-war. In shape Count Zeppelin’s invention
-resembled a gigantic cigar, 420 feet in
-length, pointed at both ends. The framework
-was made of the specially light metal
-aluminium, covered over with silk, and though
-from outside it looked all in one piece, within
-it was divided into seventeen compartments,
-each holding a separate balloon made of oiled
-silk and absolutely gas-tight. The object of
-this was to prevent the tendency the gas has
-to collect all at one end as the ship forces its
-way through the air. These balloons were
-filled with pure hydrogen, the cost of the inflation
-alone being £500. Beneath was slung a
-long gangway, 346 feet in length, with two
-cars, also made of aluminium, attached to it.
-In these cars were placed two motor-engines
-of sixteen horse power each, driven by benzine,<span class="pagenum"><a id="Page_93">93</a></span>
-and working a pair of screw-propellers attached
-to the balloon. A steering apparatus was
-placed at each end, and the whole machine,
-with five passengers, weighed about eleven
-tons.</p>
-
-<div id="ip_93" class="figcenter" style="max-width: 21.6875em;">
-  <img src="images/i_093.jpg" width="347" height="270" alt="" />
-  <div class="caption"><span class="smcap">Zeppelin’s Airship over Lake Constance.</span></div></div>
-
-<p>To lessen the effects of a possible fall, the
-experiments were carried out over water, and
-the great airship was housed in a shed built on
-Lake Constance. The cost of this shed alone
-was enormous, for it was elaborately constructed
-on pontoons, and anchored in such
-a way that it could be turned round to allow
-the airship to be liberated from it in the best<span class="pagenum"><a id="Page_94">94</a></span>
-direction to suit the wind. The trial trip was
-made one evening in June 1900, when a very
-light wind was blowing. The great machine
-rose into the air, carrying Zeppelin and four
-companions to a height of 800 feet. The
-steering apparatus then being put into action,
-it circled round and faced the wind, remained
-stationary for a short while, and then sank
-gracefully and gently upon the water. A few
-days later another and more successful trial
-was made. The wind at the time was blowing
-at sixteen miles an hour, but in spite of
-this the airship slowly steered its course against
-the wind for three and a half miles, when, one
-of the rudders breaking, it was obliged to come
-down. On one or two other occasions also it
-made successful voyages, proving itself to be
-perfectly manageable and capable of being
-steered on an absolutely calm day. The expense
-of the experiments was, however, tremendous;
-money fell short, and the great machine, the
-result of many years’ labour and thought, has
-since been abandoned and broken up.</p>
-
-<div id="ip_94" class="figcenter" style="max-width: 21.6875em;">
-  <img src="images/i_095.jpg" width="347" height="349" alt="" />
-  <div class="caption"><span class="smcap">Santos Dumont’s Airship.</span></div></div>
-
-<p>A far happier fate has so far attended the
-efforts of the brave young Brazilian, Albert
-Santos Dumont. The wealthy son of a successful
-coffee-planter, he had always from his
-boyhood been keenly interested in aeronautics,
-and, coming to Paris, he constructed in 1898
-an airship of a somewhat novel kind. His
-balloon was cigar-shaped, 83 feet long, and
-holding 6500 feet of pure hydrogen. Attached<span class="pagenum"><a id="Page_95">95</a></span>
-to the balloon, and working a propeller,
-was a small motor like those used for motor
-cycles, and astride of this Santos Dumont
-rode, bicycle fashion, steering his course with
-a rudder. In this ingenious machine he
-ascended from the Botanical Gardens in Paris
-and circled several times round the large
-captive balloon then moored there, after which<span class="pagenum"><a id="Page_96">96</a></span>
-he made a number of bold sweeps in the air,
-until an accident occurred to his engine and
-he came precipitately to the ground. Though
-shaken he was by no means discouraged, and
-declared his intention of continuing his experiments
-until he should have invented an
-airship which, in his own words, should
-be “not a mere plaything, but a practical
-invention, capable of being applied in a
-thoroughly useful fashion.”</p>
-
-<p>Accordingly he constructed one machine
-after another, gaining fresh knowledge by
-each new experience, and profiting by the accidents
-and failures which continually beset him
-in his dangerous and daring work. Before
-long also he received an additional incentive
-to his labours. Early in the year of 1900 it
-was announced by the Paris Aero Club, a
-society of Frenchmen interested in aeronautical
-matters, that one of its members,
-M. Deutsch, had offered a prize of 100,000
-francs—about £4000—to the man who, starting
-from the Aero Club grounds at Longchamps
-in a balloon or flying machine, should
-steer his course right round the Eiffel Tower
-and back to the starting-place—a distance of
-three and a half miles—within half an hour.
-If the prize were not won within a certain
-time, his offer was to be withdrawn, and
-meanwhile he promised a certain sum of
-money every year for the encouragement of
-aeronautical experiments.</p>
-
-<p><span class="pagenum"><a id="Page_97">97</a></span>
-The offer of this reward set many inventors
-to work upon the construction of various
-aerial vessels of all kinds, but from the beginning
-Santos Dumont was well to the fore.
-By the middle of 1901 he had completed what
-was his sixth airship—a cigar-shaped balloon,
-100 feet long, its propeller worked by a motor-car
-engine of fifteen horse-power—and with it,
-on July 15th, he made a splendid attempt for
-the prize. Starting from the Club grounds,
-he reached the Eiffel Tower in thirteen
-minutes, and, circling round it, started back
-on his homeward journey. But this time his
-voyage was against the wind, which was really
-too strong for the success of his experiment;
-part of his engine broke down, and the balance
-of the vessel became upset; and although he
-managed to fight his way back to the starting point,
-he arrived eleven minutes behind time,
-and so failed to fulfil M. Deutsch’s conditions.</p>
-
-<p>Again, on the 9th of August, having in the
-meantime made further trials with his machine,
-he embarked on another attempt to carry off
-the prize. He chose the early hours of the
-morning, starting shortly after six from the
-Club grounds, where only a few friends, among
-them the keenly interested M. Deutsch, were
-present. The day was apparently perfect, and
-when, after the lapse of five minutes only, he
-had reached the Tower and swung gracefully
-round it, every one was convinced that this
-time the prize was certain to be won. But<span class="pagenum"><a id="Page_98">98</a></span>
-the homeward journey was all against the
-wind, which was blowing more powerfully
-aloft than on the ground, and suddenly the
-onlookers were horrified to see the fore part of
-the balloon double right back. By so doing
-the silken envelope became torn and the gas
-began escaping. Rapidly the balloon appeared
-to wither up and shrink together. The engine
-was seen still to be working, though no progress
-was now being made. Then the whole
-apparatus collapsed utterly, and fell with sickening
-speed upon the house-tops.</p>
-
-<p>Deutsch and his companions watched the fall
-horror-struck, and jumping into their motorcars
-hurried to the spot, convinced that a fatal
-accident must have occurred. But they found
-that, although the airship was smashed to
-pieces, its plucky inventor had almost miraculously
-escaped unhurt. The wrecked machine
-had fallen upon the roof of a house in such a
-way that the keel had caught upon a corner,
-and the car, which was fastened to it, hung at
-a perilous angle down the side of a wall. Fortunately
-Dumont was secured to his car by a
-leather belt, and he managed to hold on,
-though in considerable danger lest the keel
-should break and let him fall, until rescued by
-a fireman with a rope. His machine was
-hopelessly ruined; but when asked what he
-intended to do next he merely answered:
-“Begin again. Only a little patience is necessary.”</p>
-
-<p><span class="pagenum"><a id="Page_99">99</a></span>
-A new machine, “Santos Dumont VII.,”
-was ready in less than a month, and tested on
-the 6th of September. It behaved beautifully,
-and all went well until the trail-rope caught
-in a tree. In liberating it the framework became
-bent, and the airship was being towed
-back to its shed when a sudden gust of wind
-tore it away from those who held it. It immediately
-rose into the air, and on Dumont
-opening the valve the whole collapsed and fell
-to earth with a great shock. Again the lucky
-inventor escaped unhurt, though owning this
-time that he had “felt really frightened.” Ten
-days later, in another trial, the airship came
-in contact with some trees, which pierced
-the silk and let out the gas, so that it fell
-precipitately twenty feet. But the aeronaut
-appeared to bear a charmed life, for once more
-he was none the worse for the fall. Several
-other unsuccessful trials followed, and then,
-on the 19th of October, Santos Dumont made
-another grand attempt for the prize.</p>
-
-<p>Starting with the wind in his favour, his
-machine travelled at the rate of thirty miles
-an hour, and rounded the Eiffel Tower in nine
-minutes. But in the journey homewards the
-airship had to struggle with a wind blowing
-at thirteen miles an hour. In endeavouring
-to “tack” the machinery became upset, and
-Dumont, leaving his car, crawled along the
-framework to the motor, which he succeeded
-in putting in order again. But this naturally<span class="pagenum"><a id="Page_100">100</a></span>
-occasioned some delay, and though he accomplished
-the rest of his journey in eight minutes,
-the Committee at first decided he had exceeded
-the allotted time by forty seconds, and so had
-lost the prize. Great popular indignation was
-excited by this decision, for public sympathy
-was all with the daring and persistent young
-Brazilian, and M. Deutsch himself was most
-anxious he should receive the award. Finally,
-he was considered to have fairly won it, and
-the money, which he afterwards divided among
-the poor, was formally presented to him.</p>
-
-<p>Early in the next year Santos Dumont continued
-his experiments at Monaco, and on one
-occasion came down in the sea, and had to be
-rescued in the Prince of Monaco’s own steam
-yacht. After this there was a talk of further
-voyages being made in England, but the project
-came to nothing, and although Dumont
-made other ascents in Paris in the summer of
-1903, he does not appear to have eclipsed his
-previous record.</p>
-
-<p>But although Santos Dumont came through
-all his accidents and perils so happily, his
-example led to terrible disaster on the part
-of a luckless imitator. In 1902 M. Severo,
-also a Brazilian, was fired with a desire to
-share his fellow-countryman’s fame, and he
-also constructed an airship with which he
-proposed to do great things. But while
-Dumont was a skilled aeronaut of large experience,
-as well as a mechanician, Severo<span class="pagenum"><a id="Page_101">101</a></span>
-knew scarcely anything about the subject,
-and had only been aloft once or twice. Proof
-of his ignorance is shown by the fact that his
-motor-engine was placed only a few feet away
-from the valve through which the gas from
-the balloon would escape.</p>
-
-<p>The ascent took place in Paris early in the
-morning of the 12th of May, and was witnessed,
-unhappily, by Severo’s wife and son.
-Bidding them good-bye, he stepped into the
-car, and, accompanied by an assistant, rose
-above the town. The balloon rose steadily,
-and appeared to steer well. Then Severo
-commenced to throw out ballast, and when
-the airship had risen 2000 feet it was suddenly
-seen to burst into a sheet of flame.
-A terrible explosion followed, and then the
-whole fell to the ground a hopeless wreck,
-and the two men were dashed to pieces in the
-fall. It is believed that this dreadful disaster,
-which recalls the fate of Pilâtre de Rozier, was
-caused by the hydrogen gas, which escaped
-from the valve during the rapid rise, becoming
-ignited by the engine, which, as has been said,
-was placed dangerously close.</p>
-
-<p>Nor was this, unhappily, the only accident
-of the kind in Paris during the year. Only
-five months later, on the 13th of October,
-Baron Bradsky ascended with an assistant in
-a large airship of his own invention. Through
-faulty construction, the steel wires which fastened
-the car to the balloon broke, the two<span class="pagenum"><a id="Page_102">102</a></span>
-became separated, the car fell, and its occupants
-were killed on the spot.</p>
-
-<p>So far, the credit of the only English airship
-which has yet flown rests with Mr.
-Stanley Spencer, the well-known aeronaut.
-Mr. Spencer comes of a race of aeronauts.
-His grandfather, Edward Spencer, was the
-great friend and colleague of Charles Green,
-and shared with him some of his chief ballooning
-adventures, notably the terrible voyage
-when Cocking lost his life. Green stood
-godfather to Edward Spencer’s son, who was
-christened Charles Green after him. He also
-grew up to be an aeronaut, and made several
-inventions and improvements relating to balloons
-and flying machines. His love of ballooning,
-inherited from his father, has been passed
-on to his children, and his three eldest sons,
-Percival, Arthur, and Stanley, are chief among
-British aeronauts, and indeed have practically
-the monopoly of professional ballooning and
-balloon manufacture in Great Britain. Nor
-have they confined themselves to this country.
-All three have taken their balloons and parachutes
-to distant parts of the world, and
-among their many hundreds of ascents, both
-abroad and at home, have met with all manner
-of exciting and perilous adventures, though
-never yet with serious mishap. Their knowledge
-of practical aeronautics, then, is unrivalled,
-and Mr. Stanley Spencer had the
-experience of three generations to guide<span class="pagenum"><a id="Page_103">103</a></span>
-him when, in 1902, he set to work to
-build an airship which he had long been
-devising.</p>
-
-<p>His first machine was a comparatively small
-one, capable only of lifting a light man. It
-took the usual form of a cigar-shaped balloon,
-the framework of which was built of bamboo,
-driven forward by a screw-propeller worked by
-a small petrol engine. Warned by the fate
-of the unfortunate Severo, Mr. Spencer placed
-his engine far away from the valve. Profiting
-also by Santos Dumont’s experience, he constructed
-his balloon in such a manner that,
-should it become torn and the gas escape, the
-empty silk would collapse into the form of a
-parachute and break the fall. Furthermore,
-there was an arrangement by which, while
-aloft, ordinary air could be forced into the
-balloon to replace any loss of gas, and so
-keep the silk always fully inflated and “taut”—a
-very important factor in a machine that
-has to be driven forward through the atmosphere.</p>
-
-<p>With this airship Mr. Spencer, as also his
-equally daring wife, made several highly successful
-trials at the Crystal Palace, when it
-was found to steer well and answer its helm
-most satisfactorily. Mr. Spencer also made
-two long voyages, from London and from
-Blackpool, on both of which occasions he
-found he could manœuvre his airship with
-considerable success, make circular flights,<span class="pagenum"><a id="Page_104">104</a></span>
-and sail against the wind, provided it was
-blowing only at moderate speed.</p>
-
-<p>Encouraged by his success, he next built a
-similar but much larger machine, nearly a
-hundred feet long, holding 30,000 cubic feet
-of gas, and driven by a petrol motor of twenty-four
-horse-power. In this case the propeller, instead
-of being placed at the rear, as in general,
-is at the front of the airship, thereby pulling
-it forward through the air instead of pushing
-it from behind. By this arrangement Mr.
-Spencer thinks his balloon would have less
-tendency to double up when urged against a
-strong wind. The steering is done by a rudder
-sail at the stern, and to cause his machine to
-sail higher or lower, the aeronaut points its
-head up or down by means of a heavy balance-rope.</p>
-
-<p>This new airship was ready by the summer
-of 1903, but the unfavourable weather of that
-stormy season again and again interfered with
-the experiments. On the 17th of September
-Mr. Spencer announced his intention of sailing
-from the Crystal Palace round the dome of
-St. Paul’s, and returning to his starting-place.
-The Cathedral was indeed safely reached, but
-the increasing breeze, now blowing half a gale,
-baffled all his attempts to circle round. Again
-and again, till his hands were cut and bleeding
-with the strain of the ropes, he brought his
-machine up, quivering, to the wind, but all to
-no purpose, until at length, abandoning the<span class="pagenum"><a id="Page_105">105</a></span>
-attempt, he sailed with the current to Barnet.
-More favourable results may doubtless be
-looked for with better weather conditions.</p>
-
-<p>In France during 1903 the brothers Lebaudy
-made some successful trips with an airship of
-their own construction. Many other airships
-are now being built in all parts of the world,
-in preparation for the aeronautical competitions
-to take place in America on the occasion
-of the St. Louis Exhibition of this year.</p>
-
-<hr />
-<div class="chapter">
-<h2 class="vspace"><a id="CHAPTER_VII"></a>CHAPTER VII<br />
-
-<span class="subhead">THE FLYING MACHINE</span></h2>
-</div>
-
-<p>It is now time we turn our attention from
-the airship to its important rival, the flying
-machine.</p>
-
-<p>At first sight it may perhaps appear that
-so far the flying machine has accomplished
-less than the airship, and gives less promise
-of success, since up to the present time no
-flying machine has taken a man any distance
-into the air, or indeed done much more than
-just lift itself off the ground. Nevertheless
-those who have made a study of the matter
-are full of hope for the future. Many experts
-declare that already the limits of what can
-be done with the airship, which depends upon
-the lifting power of its gas to raise it and<span class="pagenum"><a id="Page_106">106</a></span>
-to sustain it in the air, are being reached. It
-has indeed been proved that on a calm
-day, or with only a light breeze, this form
-of sky vessel can be steered safely about the
-heavens, and doubtless as engines are constructed
-yet lighter and more powerful in
-proportion to their weight, more successful
-voyages still will be accomplished. But it
-is extremely doubtful whether an airship
-can ever be constructed which shall be able
-to stand against a gale of wind.</p>
-
-<p>So long as a balloon sails only with the
-breeze it offers no resistance to the force of
-the wind, and can be made of the lightest
-and thinnest material. But directly it has to
-face the wind, and fight its way against it
-as an airship must do, then it has to be
-made of sufficient strength and rigidity to
-withstand the wind’s power, or it will be
-blown to pieces. To make so large a thing
-as an airship withstand a rough wind, it
-must be built of very strong and rigid
-materials. To do this means to add to the
-weight of the machine. To lift the increased
-weight, a larger machine which can hold
-more gas is needed. The larger the machine
-the more surface it offers to the wind, and
-the stronger therefore must be its construction.
-It will now be seen that we are arguing
-in a circle, and we can understand that a point
-must be reached in the making of airships
-when, with our present materials, the advantage<span class="pagenum"><a id="Page_107">107</a></span>
-gained by increase of strength will be
-more than counterbalanced by increased
-weight. On this point Sir Hiram Maxim
-says: “It is not possible to make a balloon,
-strong enough to be driven through the air
-at any considerable speed, at the same time
-light enough to rise in the air; therefore
-balloons must always be at the mercy of a
-wind no greater than that which prevails
-at least 300 days in the year;” adding,
-“Those who seek to navigate the air by
-machines lighter than air have, I think, come
-practically to the end of their tether.”</p>
-
-<p>With the flying machine, on the contrary,
-the same difficulty does not arise. Since it
-is at all times heavier than air, and is kept
-aloft simply by its motive power and mechanism,
-its weight is of no consequence, provided
-only its engine is sufficiently powerful.
-It may, therefore, be built as rigidly as need
-be, while, from its size—which is much
-smaller in proportion to its lifting power than
-in the case of the airship—and also from
-its construction, it is much less liable to be
-affected by the wind.</p>
-
-<p>In constructing a flying machine which is
-heavier than air the inventor has before him
-two examples of bodies which, though heavier
-than the atmosphere, yet contrive to rise upwards
-into the sky; these are, firstly, birds, and
-secondly, the familiar schoolboy toys, kites.
-To imitate the flying powers of birds and<span class="pagenum"><a id="Page_108">108</a></span>
-kites, he must first understand the means by
-which their flight is accomplished; and he
-will find, on examination, that to a large
-extent the same principle underlies each—the
-principle of what is termed the “aeroplane.”</p>
-
-<div id="ip_108" class="figcenter" style="max-width: 16.0625em;">
-  <img src="images/i_108.jpg" width="257" height="229" alt="" />
-  <div class="caption"><span class="smcap">Kestrel.</span></div></div>
-
-<p>As we watch birds—especially large birds,
-as hawks and gulls—winging their way about
-the sky, we may notice that their flight is
-accomplished in two ways; either they are
-moving through the air by flapping their
-wings up and down, or else with wings wide
-outstretched they are soaring or sailing in the
-air for long times together without apparently
-moving their wings at all. Certain birds, such
-as vultures and albatrosses, possess this power<span class="pagenum"><a id="Page_109">109</a></span>
-of soaring flight to an extraordinary degree,
-and the exact way in which they keep themselves
-poised aloft is indeed still a mystery.
-We cannot, however, as we watch, say, a
-hawk, hovering in the air with motionless
-wing, help being struck by its resemblance
-to the schoolboy’s kite, kept afloat high in
-the sky by the action of the wind properly
-applied to its surface, and we can at once
-see that the bird makes use of the same
-principle as the kite in its soaring or hovering
-flight. Indeed, just as a kite sinks to earth
-when the wind drops, so in a dead calm even
-an albatross has to flap its wings to keep
-afloat.</p>
-
-<p>It is to the principle of the kite, therefore,
-that the inventor of the flying machine must
-turn. He must adapt the same principle to
-his apparatus, and this he does in his aeroplane,
-which, as will be seen, is an all-important
-part of his machine, and which, in its simplest
-form, is nothing more or less than a kite.</p>
-
-<p>We know that if a light flat body, such
-as a kite, is lying upon the ground, and the
-wind gets under it so as to tilt it, it will be
-lifted by the wind into the air. The string of
-a kite is so adjusted that as the kite rises it
-is still held at an angle to the wind’s force,
-and so long as the kite remains tilted at the
-necessary angle so long it will continue to
-rise or poise itself in the air while the wind
-blows. When schoolboys fly their kites they<span class="pagenum"><a id="Page_110">110</a></span>
-choose an exposed spot, and a day when the
-wind is blowing freshly and steadily. One
-boy throws the kite into the air, while another,
-holding the string to which it is fastened,
-draws it tight by running with it against
-the wind. By this means the kite, if rightly
-adjusted, is held at the proper angle to the
-wind, and started without dragging along
-the ground to begin with. As soon as the
-wind has fairly caught the kite and carried
-it up into the air, the boy who holds the
-string need run no longer, but if the breeze
-suddenly fails, and the kite begins to drop,
-he may still keep his toy aloft by running
-quickly along and dragging the kite after
-him; the artificial wind he thus creates making
-up for the lack of the other.</p>
-
-<p>Now let us suppose that there is no string
-to hold the kite in proper position, and no
-boy to run with it; but that their places
-are supplied by a motor and propeller to
-drive it through the air; while at the same
-time it is so balanced as to preserve a fitting
-angle against a wind of its own making.
-We should then have a true flying machine,
-heavier than air, and yet capable of sailing
-through the sky.</p>
-
-<p>This is the kind of flying machine that
-inventors at the present moment are trying to
-produce. They have, in their machines, to
-reproduce artificially two essential conditions
-that cause a kite to fly. They have to provide<span class="pagenum"><a id="Page_111">111</a></span>
-a substitute for the strength of the wind, and
-also a substitute for the pull of the string which
-keeps the kite at the best angle to profit by
-that strength. The first they achieve by using
-a suitable engine or motor, and the second by
-supplying it with what are called “aeroplanes”—large
-flat surfaces, light but rigid, inclined
-at a suitable angle to the horizon. By the use
-of these the power of the engine is employed to
-best advantage in causing the machine to sail
-through the sky.</p>
-
-<p>The great advantage of the aeroplane over
-any other mode of flying is thus described by
-Major Baden-Powell, one of our greatest living
-authorities on aeronautical matters: “When
-people realise that in the case of the aeroplane
-a contrivance like the awning of a small steam
-launch is capable of supporting the man and
-the engines, and that in the case of the balloon
-a mass like a big ship is necessary to lift the
-same weight, one can readily understand the
-advantages of the aeroplane, especially when
-to the drawbacks of the bulky balloon are
-added the great difficulties inherent in the
-retention of a large volume of expensive,
-inflammable, and subtle gas, ever varying in
-its density.”</p>
-
-<p>The most successful inventors of flying
-machines at the present day are all Americans,
-though one of them has made his experiments
-on this side of the Atlantic. They are Sir
-Hiram Maxim, inventor of the famous gun,<span class="pagenum"><a id="Page_112">112</a></span>
-and one of the greatest mechanicians living;
-Professor Langley, Secretary of the Smithsonian
-Institute, Washington; and the brothers
-Wright.</p>
-
-<p>Mr. Maxim, as he then was, commenced
-his experiments in the early nineties. As
-we have already shown, he went to Nature
-for his guide, and in constructing his flying
-machine took as his analogy the flight of
-birds. Birds urge their way onwards in the
-air by reason of the strength of their wings.
-A flying machine must do the same by the
-power of its engine; and as a bird’s wings
-must be strong in proportion to the bird’s
-weight, so the strength or horse-power of the
-engine must stand in a certain proportion
-to the number of pounds it weighs. Mr.
-Maxim’s first task, therefore, was to discover
-what proportion this must be, and by his
-experiments he arrived at a conclusion which
-Professor Langley in America, working at
-the same task at the same time, but quite
-independently, had also proved to be true,
-namely, that the faster a machine travels
-through the air the greater weight it may
-carry; or, in other words, the quicker a body
-moves through the atmosphere the less tendency
-will it have to fall to the ground. A
-quick-flying bird like an albatross, therefore,
-flies with less exertion, and so could carry a
-greater weight, than a slow-moving bird like a
-goose. It must therefore be to the advantage<span class="pagenum"><a id="Page_113">113</a></span>
-of the flying machine that its engines should
-attain as great a speed as possible.</p>
-
-<p>Maxim’s next task was to construct a suitable
-engine. Light but powerful engines had
-not then reached the pitch of perfection they
-have now, and his results proved at the time a
-perfect revelation of what could be done in
-this direction, and led to great advances being
-made.</p>
-
-<div id="ip_113" class="figcenter" style="max-width: 21.125em;">
-  <img src="images/i_113.jpg" width="338" height="264" alt="" />
-  <div class="caption"><span class="smcap">The Maxim Airship.</span></div></div>
-
-<p>Next came the designing of the great
-machine itself. It was an enormous apparatus,
-weighing over three tons, capable of carrying
-three men, and supported by no less than 4000<span class="pagenum"><a id="Page_114">114</a></span>
-square feet of aeroplanes, placed one above the
-other. Its steam-engine was of 363 horse-power,
-and worked two screws of nearly 18
-feet in diameter. Before such a machine could
-rise from the ground it must first have attained
-a very great forward impetus, and this it was
-to receive by running at a great speed on
-wheels along a railway track specially laid
-down for it. To prevent the apparatus rising
-unduly, a reversed rail was erected a short
-distance above, on which the machine would
-begin to run as soon as it lifted itself off the
-lower track. Along this railway the flying
-machine was tested, and it was found that as
-soon as a speed of thirty-six miles an hour was
-reached the wheels were lifted clear off the
-ground, and were running only upon the upper
-rail. On the last occasion a speed of forty-two
-miles an hour was attained, when the lifting
-power became so great that the restraining rail
-broke away altogether, and the great flying
-machine actually floated in the air for a few
-moments, “giving those on board the sensation
-of being in a boat,” until, steam being shut off,
-it fell to the ground and was broken.</p>
-
-<p>The enormous expense of his experiments
-has not prevented Sir Hiram Maxim from
-repeating them, and he hopes soon to have
-a much improved machine. Nevertheless his
-experience and calculations have been of great
-value to those who would follow in his footsteps,
-and have proved the possibility of constructing<span class="pagenum"><a id="Page_115">115</a></span>
-a flying machine which shall fly by
-virtue of its own motion.</p>
-
-<p>Meanwhile in America Professor Langley
-was experimenting, independently, almost on
-the same lines. He also was bent on producing
-a flying machine, but instead of starting to work
-upon a large apparatus like Maxim, he began
-by making models, and gradually worked his
-way up to bigger things. For many months
-he studied to understand the principle of those
-ingenious little toys sometimes seen, which, by
-means of the tension of a twisted india-rubber
-band, will keep afloat in the air for a few
-seconds. Next he constructed small models
-driven by steam, in which he found his great
-difficulty was in keeping down the weight.
-For years he persevered in his work without
-any great success, until in 1896 he produced
-a model machine which he called an “aerodrome.”
-It was quite small, weighing with
-its engine only 25 lbs., and measuring but
-14 feet from tip to tip of its aeroplanes. The
-experiments were made over water, and the
-necessary momentum was given by dropping
-it from a platform 20 feet high. On more
-than one occasion this little flying machine
-rose with great steadiness in the face of the
-wind to a height of 100 feet, moving so
-smoothly that it might have carried a glass
-of water without spilling a drop; and then,
-the steam of its engine being exhausted, sank
-down gracefully upon the water, having flown<span class="pagenum"><a id="Page_116">116</a></span>
-about half a mile in a minute and a half.
-This success encouraged Professor Langley
-next to construct a full-sized flying machine
-on the same lines; but this on its first voyage
-plunged headlong into the water and was hopelessly
-damaged. The United States Government
-have since granted him a sum of money
-to continue his experiments.</p>
-
-<p>Latest of all the airship inventors, and
-perhaps so far the most successful, are the
-brothers Wright. Up to the date of writing
-this the full details of their work are not yet
-made public, but it is known that on the 17th
-of December 1903, their machine, which consists
-of two large aeroplanes driven forward by
-an engine of sixteen horse-power, after being
-started along a short track on level ground,
-rose into the air and flew for about half a
-mile.</p>
-
-<p>It remains for us now to make brief mention
-of how men have tried, and are still trying, to
-imitate the soaring or gliding flight of birds
-without the use of machinery to assist them.
-We have seen how an albatross can, when the
-wind is blowing, convert itself, as it were, into
-a kite, and keep aloft in the air for a while
-without moving its wings. Similarly many
-people have attempted, by attaching themselves
-to a large supporting surface or aeroplane,
-and casting themselves off from a
-height, to glide with the wind across wide
-stretches of country. In this mode of soaring<span class="pagenum"><a id="Page_117">117</a></span>
-flight some have made considerable progress.
-Herr Lilienthal, a German, was perhaps for a
-time the most successful. He started from
-small beginnings, jumping off a spring board
-a few feet high, and gradually increasing the
-height as he became more accustomed to his
-apparatus. Later he had a large artificial
-mound made specially for him, and from the
-top of this he would throw himself into the
-air, and with a favourable wind sail a distance
-of four hundred yards at a considerable height
-above the ground. Lilienthal’s experiments,
-however, came to a sad end. On August the
-11th, 1896, after he had glided along in the air
-for about two hundred yards, a sudden gust of
-wind caught the wide-spread wings of his
-apparatus, and tilted it upwards. This caused
-him to lose his balance, and he fell from a
-height of sixty feet and broke his spine. A
-similar accident also caused the death, a few
-years later, of a young Englishman, Mr.
-Percy S. Pilcher, who had been following up
-Lilienthal’s experiments.</p>
-
-<p>The greatest difficulty now to be overcome
-in solving the problem of human flight, whether
-with soaring apparatus or flying machine, may
-be summed up in one word—“balance.” Every
-schoolboy knows that the great art of kite-flying
-consists in so adjusting the point of
-attachment of the string and the length of
-the tail that his kite is properly balanced, and
-is not liable to turn over or “dip” when in<span class="pagenum"><a id="Page_118">118</a></span>
-the air. Every observer of birds, too, has
-noticed how largely the question of balance
-enters into their flying. A bird in the air is
-continually and instinctively adjusting its
-wings to its position, and to every puff of
-wind, even as a man on a bicycle is continually,
-though unconsciously, adjusting his
-handle-bar to the inequalities of the road;
-and as a cyclist requires practice before he
-can ride his machine, or a skater before he
-can keep his feet on the ice, so even a bird
-has to learn how to balance itself before it
-can use its wings.</p>
-
-<p>Dwellers in the country are familiar with
-the way in which the parent birds teach their
-fledglings to fly, instructing them by example,
-and encouraging them in their first short flights
-until they have become familiar with their
-powers and can balance themselves aright in
-the air. And if even birds, with whom flying
-is an instinct, have to learn the art of balancing
-themselves in the air by practice, how much
-more so must such a clumsy creature as a
-man, to whom flying is entirely unnatural.
-Only by long and painful efforts can he ever
-hope to succeed at all, and unfortunately all
-such efforts are necessarily very dangerous.
-Many disastrous accidents have already
-occurred, and although great progress has
-been made, and the time may not now
-be far distant when, by means of improved
-machines, men will actually fly, it will<span class="pagenum"><a id="Page_119">119</a></span>
-be at the cost of much labour, and, it is to
-be feared, at the sacrifice of many more
-brave lives.</p>
-
-<hr />
-<div class="chapter">
-<h2 class="vspace"><a id="CHAPTER_VIII"></a>CHAPTER VIII<br />
-
-<span class="subhead">CONCLUSION</span></h2>
-</div>
-
-<p>In our last chapters we have, in some measure,
-brought our aeronautical history up to the
-present day, though of necessity many important
-points and notable voyages have been
-passed over unnoticed. It now remains to us
-but to gather up the loose ends of the story,
-and then briefly to indicate the direction in
-which we may expect new advances in the
-future.</p>
-
-<p>And, first of all, it may be well to mention
-a few ballooning “records.” The largest
-balloon ever known was used as a captive
-at the Paris Exhibition of 1878. It was of
-883,000 cubic feet capacity, and capable of
-lifting more than fifty passengers at a time.
-Other mammoth balloons of almost as great
-dimensions have also been employed for captive
-work; but the largest balloon intended specially
-for “right away” ascents was the “Giant,”
-built in Paris in 1863 by M. Nadar. It held
-215,000 cubic feet of gas, and was made of
-22,000 yards of best white silk, at 5s. 4d. a<span class="pagenum"><a id="Page_120">120</a></span>
-yard. The car was particularly elaborate,
-almost as big as a small cottage, being of
-two stories, and divided into several rooms.
-It proved, however, to be a very dangerous
-adjunct, for on the two occasions it was
-used those within received very serious injury
-during rough landings, and it was soon put
-aside and replaced by an ordinary basket.
-None of these monster sky craft appear to
-have been very successful, and at the present
-day the largest balloons in general use do not
-exceed 50,000 or 60,000 cubic feet capacity.</p>
-
-<p>The honour of the longest aerial voyage
-ever made rests with the unfortunate Andrée,
-who, if his dates are to be relied upon, had
-been forty-eight hours aloft in his balloon
-when he despatched his last found message.
-Not far behind in point of time, however, was
-Count de la Vaulx, who in the summer of
-1901 attempted to cross the Mediterranean by
-balloon. Contrary winds in the end baffled
-his venture, and he was forced to descend on
-the deck of a steamer which was following his
-course, but not before he had spent forty-one
-hours in the sky. The year previous the Count
-had also achieved a record long-distance voyage
-in connection with some balloon competitions
-held during the French “Exposition” of 1900.
-Starting from Paris, he descended in Russia,
-1193 miles away, having been aloft thirty-six
-hours all but fifteen minutes.</p>
-
-<p>For lofty ascents the palm still rests with<span class="pagenum"><a id="Page_121">121</a></span>
-Glaisher and Coxwell, whose famous voyage
-of 1862, when, as related, a height of 37,000
-feet (or seven miles) is said to have been
-reached, has never been equalled. The exact
-altitude attained on this occasion is, however,
-as we have explained, only conjectural, neither
-being capable at the last of taking observations,
-and no height being <em>registered</em> over
-29,000 feet. On July 31st, 1901, two German
-scientists, Dr. Berson and Dr. Suring, ascended
-from Berlin to a <em>registered</em> altitude of 34,400
-feet, or well over six miles. They were provided
-with compressed oxygen to breathe, but
-even then became unconscious during the last
-800 feet of the ascent. Three years before Dr.
-Berson had made a very lofty ascent in England,
-accompanied by Mr. Stanley Spencer, when
-a height of 27,500 feet was reached. A terrible
-accident occurred in connection with a lofty
-scientific ascent made from Paris in 1875 by
-Tissandier, inventor of the airship already
-mentioned, and two companions. Their object
-was to attain a record height, in which
-they indeed succeeded, reaching 28,000 feet.
-But despite the artificial air they took with
-them to breathe, they all three became unconscious
-in the extreme upper regions, and
-when, after one of the most awful voyages
-in the whole history of ballooning, Tissandier
-came to himself, it was to find the bodies of
-his two friends stiff and cold beside him in
-the car.</p>
-
-<p><span class="pagenum"><a id="Page_122">122</a></span>
-Coming to the aeronautical work of the
-present day, it is humiliating to have to
-confess that, through lack of public support,
-England has somewhat fallen behind other
-nations. In America and on the Continent
-large sums of money are subscribed for experiments
-with balloons, airships, and flying
-machines; but in our own country all efforts in
-these directions are due to private enterprise
-alone. Among those most keenly interested
-in aeronautical progress may be mentioned
-Mr. P. Alexander, of Bath; Major Baden-Powell,
-President of the English Aeronautical
-Society; and the Rev. J. M. Bacon. The
-latter has made many scientific balloon ascents
-for the study of meteorology, acoustics, and
-other kindred sciences, and his observations
-have proved of much interest and value.
-During his voyages he has met with several
-adventures, though no serious mishaps. On
-one occasion, when the writer accompanied
-him, during a night ascent made to observe
-the great shower of Leonid shooting stars
-foretold for the 16th of November 1899,
-the balloon became unmanageable while lost
-above the clouds. For ten hours it refused
-to come down, during much of which time
-the sea was heard beneath, and the voyagers
-believed themselves blown out over the Atlantic.
-A very stormy landing, in which the
-writer broke her arm, was eventually made near
-the coast in South Wales as before mentioned.</p>
-
-<p><span class="pagenum"><a id="Page_123">123</a></span>
-In November 1902, Mr. Bacon, accompanied
-by Mr. Percival Spencer, crossed the
-Irish Channel by balloon, the second time
-only this dangerous passage has been made,
-the first occasion being the voyage of Mr.
-Windham Sadler, eighty-five years before.
-Mr. Bacon’s voyage was partly undertaken for
-the Admiralty, who lent the services of a gunboat
-to follow the balloon’s course over the
-sea. One of the special objects of investigation
-was to test a theory, long held, that from
-a considerable height aloft the bottom of the
-sea becomes visible, even in rough weather
-when the surface is troubled with waves.
-This point was very successfully settled, for
-although the sea was very rough, Mr. Bacon
-not only saw, but succeeded in photographing,
-from a height of 600 feet, the beds of sand and
-rock lying in ten fathoms at the bottom of
-the Irish Channel—a feat never before accomplished.</p>
-
-<p>In scientific observations of the upper
-atmosphere a valuable ally to the balloon
-has been found in the kite. The making of
-kites has now reached a high pitch of perfection,
-and by their means self-recording
-scientific instruments can be raised to vast
-heights in the air, and even men carried aloft
-with safety. A kite which latterly has
-excited much attention is the Cody kite.
-With this, during the autumn of 1903, its
-inventor, a Mexican, hazarded a bold venture.<span class="pagenum"><a id="Page_124">124</a></span>
-Harnessing it to a light boat, and
-waiting for a favourable wind, he started
-from Calais at eight o’clock one November
-evening, and was safely towed all night across
-the Channel, reaching Dover at five the next
-morning.</p>
-
-<p>The aeronautical competitions at the St.
-Louis Exhibition, in America, have given
-a great impetus to one branch at least of
-aeronautics, while the labour of many
-scientific workers throughout the whole world
-is directed to the improvement of our present
-modes of exploring the heavens, and the
-turning to best account of the means already
-at our disposal. Never since the days when
-the Montgolfier brothers floated their first
-frail craft has so much interest as now been
-manifested in the conquest of the sky, and
-never has progress been more rapid and sure.
-Whether the day will ever come when man
-will rule the atmosphere as he now does the
-sea is, as yet, uncertain, but there are many
-who hope and believe not only that he will,
-but that the day is not far distant when the
-birds will no longer hold undisputed sway
-over the empire of the air.</p>
-
-<p class="p2 center smaller vspace">
-Printed by <span class="smcap">Ballantyne, Hanson &amp; Co.</span><br />
-Edinburgh &amp; London
-</p>
-
-<div class="chapter"><div class="transnote">
-<h2 class="nobreak p1"><a id="Transcribers_Notes"></a>Transcriber’s Notes</h2>
-
-<p>Punctuation, hyphenation, and spelling were made consistent when a predominant
-preference was found in this book; otherwise they were not changed.</p>
-
-<p>Simple typographical errors were corrected; occasional unbalanced
-quotation marks retained.</p>
-
-<p>Ambiguous hyphens at the ends of lines were retained.</p>
-</div></div>
-
-
-
-
-
-
-
-
-<pre>
-
-
-
-
-
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