You may readily understand that I have occupied my mind with this subject, which was, necessarily, so interesting to me, but I have not been able to solve the problem with the appliances now known to mechanical science.
We would have to discover a motive power of extraordinary force, and almost impossible lightness of machinery.
And, even then, we could not resist atmospheric currents of any considerable strength.
Until now, the effort has been rather to direct the car than the balloon, and that has been one great error.”
“Still there are many points of resemblance between a balloon and a ship which is directed at will.”
“Not at all,” retorted the doctor, “there is little or no similarity between the two cases.
Air is infinitely less dense than water, in which the ship is only half submerged, while the whole bulk of a balloon is plunged in the atmosphere, and remains motionless with reference to the element that surrounds it.”
“You think, then, that aerostatic science has said its last word?”
“Not at all! not at all!
But we must look for another point in the case, and if we cannot manage to guide our balloon, we must, at least, try to keep it in favorable aerial currents.
In proportion as we ascend, the latter become much more uniform and flow more constantly in one direction.
They are no longer disturbed by the mountains and valleys that traverse the surface of the globe, and these, you know, are the chief cause of the variations of the wind and the inequality of their force.
Therefore, these zones having been once determined, the balloon will merely have to be placed in the currents best adapted to its destination.”
“But then,” continued Captain Bennet, “in order to reach them, you must keep constantly ascending or descending. That is the real difficulty, doctor.”
“And why, my dear captain?”
“Let us understand one another. It would be a difficulty and an obstacle only for long journeys, and not for short aerial excursions.”
“And why so, if you please?”
“Because you can ascend only by throwing out ballast; you can descend only after letting off gas, and by these processes your ballast and your gas are soon exhausted.”
“My dear sir, that’s the whole question.
There is the only difficulty that science need now seek to overcome.
The problem is not how to guide the balloon, but how to take it up and down without expending the gas which is its strength, its life-blood, its soul, if I may use the expression.”
“You are right, my dear doctor; but this problem is not yet solved; this means has not yet been discovered.”
“I beg your pardon, it HAS been discovered.”
“By whom?”
“By me!”
“By you?”
“You may readily believe that otherwise I should not have risked this expedition across Africa in a balloon. In twenty-four hours I should have been without gas!”
“But you said nothing about that in England?”
“No! I did not want to have myself overhauled in public.
I saw no use in that.
I made my preparatory experiments in secret and was satisfied.
I have no occasion, then, to learn any thing more from them.”
“Well! doctor, would it be proper to ask what is your secret?”
“Here it is, gentlemen—the simplest thing in the world!”
The attention of his auditory was now directed to the doctor in the utmost degree as he quietly proceeded with his explanation.
CHAPTER TENTH.
Former Experiments.—The Doctor’s Five Receptacles.—The Gas Cylinder.—The Calorifere.—The System of Manoeuvring.—Success certain.
“The attempt has often been made, gentlemen,” said the doctor, “to rise and descend at will, without losing ballast or gas from the balloon.
A French aeronaut, M. Meunier, tried to accomplish this by compressing air in an inner receptacle.
A Belgian, Dr. Van Hecke, by means of wings and paddles, obtained a vertical power that would have sufficed in most cases, but the practical results secured from these experiments have been insignificant.
“I therefore resolved to go about the thing more directly; so, at the start, I dispensed with ballast altogether, excepting as a provision for cases of special emergency, such as the breakage of my apparatus, or the necessity of ascending very suddenly, so as to avoid unforeseen obstacles.
“My means of ascent and descent consist simply in dilating or contracting the gas that is in the balloon by the application of different temperatures, and here is the method of obtaining that result.
“You saw me bring on board with the car several cases or receptacles, the use of which you may not have understood.
They are five in number.
“The first contains about twenty-five gallons of water, to which I add a few drops of sulphuric acid, so as to augment its capacity as a conductor of electricity, and then I decompose it by means of a powerful Buntzen battery.
Water, as you know, consists of two parts of hydrogen to one of oxygen gas.
“The latter, through the action of the battery, passes at its positive pole into the second receptacle.
A third receptacle, placed above the second one, and of double its capacity, receives the hydrogen passing into it by the negative pole.
“Stopcocks, of which one has an orifice twice the size of the other, communicate between these receptacles and a fourth one, which is called the mixture reservoir, since in it the two gases obtained by the decomposition of the water do really commingle.
The capacity of this fourth tank is about forty-one cubic feet.