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Page 11
With regards to the means employed to give the aerostat its motion a
great deal of progress had been made. For the steam engines of Henry
Giffard, and the muscular force of Dupuy de Lome, electric motors had
gradually been substituted. The batteries of bichromate of potassium
of the Tissandier brothers had given a speed of four yards a second.
The dynamo-electric machines of Captain Krebs and Renard had
developed a force of twelve horsepower and yielded a speed of six and
a half yards per second.
With regard to this motor, engineers and electricians had been
approaching more and more to that desideratum which is known as a
steam horse in a watch case. Gradually the results of the pile of
which Captains Krebs and Renard had kept the secret had been
surpassed, and aeronauts had become able to avail themselves of
motors whose lightness increased at the same time as their power.
In this there was much to encourage those who believed in the
utilization of guidable balloons. But yet how many good people there
are who refuse to admit the possibility of such a thing! If the
aerostat finds support in the air it belongs to the medium in which
it moves; under such conditions, how can its mass, which offers so
much resistance to the currents of the atmosphere, make its way
against the wind?
In this struggle of the inventors after a light and powerful motor,
the Americans had most nearly attained what they sought. A
dynamo-electric apparatus, in which a new pile was employed the
composition of which was still a mystery, had been bought from its
inventor, a Boston chemist up to then unknown. Calculations made with
the greatest care, diagrams drawn with the utmost exactitude, showed
that by means of this apparatus driving a screw of given dimensions a
displacement could be obtained of from twenty to twenty-two yards a
second.
Now this was magnificent!
"And it is not dear," said Uncle Prudent, as he handed to the
inventor in return for his formal receipt the last installment of the
hundred thousand paper dollars he had paid for his invention.
Immediately the Weldon Institute set to work. When there comes along
a project of practical utility the money leaps nimbly enough from
American pockets. The funds flowed in even without its being
necessary to form a syndicate. Three hundred thousand dollars came
into the club's account at the first appeal. The work began under the
superintendence of the most celebrated aeronaut of the United States,
Harry W. Tinder, immortalized by three of his ascents out of a
thousand, one in which he rose to a height of twelve thousand yards,
higher than Gay Lussac, Coxwell, Sivet, Croc�-Spinelli, Tissandier,
Glaisher; another in which he had crossed America from New York to
San Francisco, exceeding by many hundred leagues the journeys of
Nadar, Godard, and others, to say nothing of that of John Wise, who
accomplished eleven hundred and fifty miles from St. Louis to
Jefferson county; the third, which ended in a frightful fall from
fifteen hundred feet at the cost of a slight sprain in the right
thumb, while the less fortunate Pil�tre de Rozier fell only seven
hundred feet, and yet killed himself on the spot!
At the time this story begins the Weldon Institute had got their work
well in hand. In the Turner yard at Philadelphia there reposed an
enormous aerostat, whose strength had been tried by highly compressed
air. It well merited the name of the monster balloon.
How large was Nadar's G�ant? Six thousand cubic meters. How large was
John Wise's balloon? Twenty thousand cubic meters. How large was the
Giffard balloon at the 1878 Exhibition? Twenty-five thousand cubic
meters. Compare these three aerostats with the aerial machine of the
Weldon Institute, whose volume amounted to forty thousand cubic
meters, and you will understand why Uncle Prudent and his colleagues
were so justifiably proud of it.
This balloon not being destined for the exploration of the higher
strata of the atmosphere, was not called the Excelsior, a name which
is rather too much held in honor among the citizens of America. No!
It was called, simply, the "Go-Ahead," and all it had to do was to
justify its name by going ahead obediently to the wishes of its
commander.
The dynamo-electric machine, according to the patent purchased by the
Weldon Institute, was nearly ready. In less than six weeks the
"Go-Ahead" would start for its first cruise through space.
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