From the Earth to the Moon, Jules Verne [online e book reading .TXT] 📗
- Author: Jules Verne
- Performer: -
Book online «From the Earth to the Moon, Jules Verne [online e book reading .TXT] 📗». Author Jules Verne
“One might as well say, living creatures which do not live,” replied Michel.
“Just so,” said Barbicane, “which for us has no meaning.”
“Then we may form our opinion?” said Michel.
“Yes,” replied Nicholl.
“Very well,” continued Michel Ardan, “the Scientific Commission assembled in the projectile of the Gun Club, after having founded their argument on facts recently observed, decide unanimously upon the question of the habitability of the moon— `_No!_ the moon is not habitable.’”
This decision was consigned by President Barbicane to his notebook, where the process of the sitting of the 6th of December may be seen.
“Now,” said Nicholl, “let us attack the second question, an indispensable complement of the first. I ask the honorable commission, if the moon is not habitable, has she ever been inhabited, Citizen Barbicane?”
“My friends,” replied Barbicane, “I did not undertake this journey in order to form an opinion on the past habitability of our satellite; but I will add that our personal observations only confirm me in this opinion. I believe, indeed I affirm, that the moon has been inhabited by a human race organized like our own; that she has produced animals anatomically formed like the terrestrial animals: but I add that these races, human and animal, have had their day, and are now forever extinct!”
“Then,” asked Michel, “the moon must be older than the earth?”
“No!” said Barbicane decidedly, “but a world which has grown old quicker, and whose formation and deformation have been more rapid. Relatively, the organizing force of matter has been much more violent in the interior of the moon than in the interior of the terrestrial globe. The actual state of this cracked, twisted, and burst disc abundantly proves this. The moon and the earth were nothing but gaseous masses originally. These gases have passed into a liquid state under different influences, and the solid masses have been formed later. But most certainly our sphere was still gaseous or liquid, when the moon was solidified by cooling, and had become habitable.”
“I believe it,” said Nicholl.
“Then,” continued Barbicane, “an atmosphere surrounded it, the waters contained within this gaseous envelope could not evaporate. Under the influence of air, water, light, solar heat, and central heat, vegetation took possession of the continents prepared to receive it, and certainly life showed itself about this period, for nature does not expend herself in vain; and a world so wonderfully formed for habitation must necessarily be inhabited.”
“But,” said Nicholl, “many phenomena inherent in our satellite might cramp the expansion of the animal and vegetable kingdom. For example, its days and nights of 354 hours?”
“At the terrestrial poles they last six months,” said Michel.
“An argument of little value, since the poles are not inhabited.”
“Let us observe, my friends,” continued Barbicane, “that if in the actual state of the moon its long nights and long days created differences of temperature insupportable to organization, it was not so at the historical period of time. The atmosphere enveloped the disc with a fluid mantle; vapor deposited itself in the shape of clouds; this natural screen tempered the ardor of the solar rays, and retained the nocturnal radiation. Light, like heat, can diffuse itself in the air; hence an equality between the influences which no longer exists, now that atmosphere has almost entirely disappeared. And now I am going to astonish you.”
“Astonish us?” said Michel Ardan.
“I firmly believe that at the period when the moon was inhabited, the nights and days did not last 354 hours!”
“And why?” asked Nicholl quickly.
“Because most probably then the rotary motion of the moon upon her axis was not equal to her revolution, an equality which presents each part of her disc during fifteen days to the action of the solar rays.”
“Granted,” replied Nicholl, “but why should not these two motions have been equal, as they are really so?”
“Because that equality has only been determined by terrestrial attraction. And who can say that this attraction was powerful enough to alter the motion of the moon at that period when the earth was still fluid?”
“Just so,” replied Nicholl; “and who can say that the moon has always been a satellite of the earth?”
“And who can say,” exclaimed Michel Ardan, “that the moon did not exist before the earth?”
Their imaginations carried them away into an indefinite field of hypothesis. Barbicane sought to restrain them.
“Those speculations are too high,” said he; “problems utterly insoluble. Do not let us enter upon them. Let us only admit the insufficiency of the primordial attraction; and then by the inequality of the two motions of rotation and revolution, the days and nights could have succeeded each other on the moon as they succeed each other on the earth. Besides, even without these conditions, life was possible.”
“And so,” asked Michel Ardan, “humanity has disappeared from the moon?”
“Yes,” replied Barbicane, “after having doubtless remained persistently for millions of centuries; by degrees the atmosphere becoming rarefied, the disc became uninhabitable, as the terrestrial globe will one day become by cooling.”
“By cooling?”
“Certainly,” replied Barbicane; “as the internal fires became extinguished, and the incandescent matter concentrated itself, the lunar crust cooled. By degrees the consequences of these phenomena showed themselves in the disappearance of organized beings, and by the disappearance of vegetation. Soon the atmosphere was rarefied, probably withdrawn by terrestrial attraction; then aerial departure of respirable air, and disappearance of water by means of evaporation. At this period the moon becoming uninhabitable, was no longer inhabited. It was a dead world, such as we see it to-day.”
“And you say that the same fate is in store for the earth?”
“Most probably.”
“But when?”
“When the cooling of its crust shall have made it uninhabitable.”
“And have they calculated the time which our unfortunate sphere will take to cool?”
“Certainly.”
“And you know these calculations?”
“Perfectly.”
“But speak, then, my clumsy savant,” exclaimed Michel Ardan, “for you make me boil with impatience!”
“Very well, my good Michel,” replied Barbicane quietly; “we know what diminution of temperature the earth undergoes in the lapse of a century. And according to certain calculations, this mean temperature will after a period of 400,000 years, be brought down to zero!”
“Four hundred thousand years!” exclaimed Michel. “Ah! I breathe again. Really I was frightened to hear you; I imagined that we had not more than 50,000 years to live.”
Barbicane and Nicholl could not help laughing at their companion’s uneasiness. Then Nicholl, who wished to end the discussion, put the second question, which had just been considered again.
“Has the moon been inhabited?” he asked.
The answer was unanimously in the affirmative. But during this discussion, fruitful in somewhat hazardous theories, the projectile was rapidly leaving the moon: the lineaments faded away from the travelers’ eyes, mountains were confused in the distance; and of all the wonderful, strange, and fantastical form of the earth’s satellite, there soon remained nothing but the imperishable remembrance.
A STRUGGLE AGAINST THE IMPOSSIBLE
For a long time Barbicane and his companions looked silently and sadly upon that world which they had only seen from a distance, as Moses saw the land of Canaan, and which they were leaving without a possibility of ever returning to it. The projectile’s position with regard to the moon had altered, and the base was now turned to the earth.
This change, which Barbicane verified, did not fail to surprise them. If the projectile was to gravitate round the satellite in an elliptical orbit, why was not its heaviest part turned toward it, as the moon turns hers to the earth? That was a difficult point.
In watching the course of the projectile they could see that on leaving the moon it followed a course analogous to that traced in approaching her. It was describing a very long ellipse, which would most likely extend to the point of equal attraction, where the influences of the earth and its satellite are neutralized.
Such was the conclusion which Barbicane very justly drew from facts already observed, a conviction which his two friends shared with him.
“And when arrived at this dead point, what will become of us?” asked Michel Ardan.
“We don’t know,” replied Barbicane.
“But one can draw some hypotheses, I suppose?”
“Two,” answered Barbicane; “either the projectile’s speed will be insufficient, and it will remain forever immovable on this line of double attraction–-”
“I prefer the other hypothesis, whatever it may be,” interrupted Michel.
“Or,” continued Barbicane, “its speed will be sufficient, and it will continue its elliptical course, to gravitate forever around the orb of night.”
“A revolution not at all consoling,” said Michel, “to pass to the state of humble servants to a moon whom we are accustomed to look upon as our own handmaid. So that is the fate in store for us?”
Neither Barbicane nor Nicholl answered.
“You do not answer,” continued Michel impatiently.
“There is nothing to answer,” said Nicholl.
“Is there nothing to try?”
“No,” answered Barbicane. “Do you pretend to fight against the impossible?”
“Why not? Do one Frenchman and two Americans shrink from such a word?”
“But what would you do?”
“Subdue this motion which is bearing us away.”
“Subdue it?”
“Yes,” continued Michel, getting animated, “or else alter it, and employ it to the accomplishment of our own ends.”
“And how?”
“That is your affair. If artillerymen are not masters of their projectile they are not artillerymen. If the projectile is to command the gunner, we had better ram the gunner into the gun. My faith! fine savants! who do not know what is to become of us after inducing me–-”
“Inducing you!” cried Barbicane and Nicholl. “Inducing you! What do you mean by that?”
“No recrimination,” said Michel. “I do not complain, the trip has pleased me, and the projectile agrees with me; but let us do all that is humanly possible to do the fall somewhere, even if only on the moon.”
“We ask no better, my worthy Michel,” replied Barbicane, “but means fail us.”
“We cannot alter the motion of the projectile?”
“No.”
“Nor diminish its speed?”
“No.”
“Not even by lightening it, as they lighten an overloaded vessel?”
“What would you throw out?” said Nicholl. “We have no ballast on board; and indeed it seems to me that if lightened it would go much quicker.”
“Slower.”
“Quicker.”
“Neither slower nor quicker,” said Barbicane, wishing to make his two friends agree; “for we float is space, and must no longer consider specific weight.”
“Very well,” cried Michel Ardan in a decided voice; “then their remains but one thing to do.”
“What is it?” asked Nicholl.
“Breakfast,” answered the cool, audacious Frenchman, who always brought up this solution at the most difficult juncture.
In any case, if this operation had no influence on the projectile’s course, it could at least be tried without inconvenience, and even with success from a stomachic point of view. Certainly Michel had none but good ideas.
They breakfasted then at two in the morning; the hour mattered little. Michel served his usual repast, crowned by a glorious bottle drawn from his private cellar. If ideas did not crowd on their brains, we must despair of the Chambertin of 1853. The repast finished, observation began again. Around the projectile, at an invariable distance, were the objects which had been thrown out. Evidently, in its translatory motion round the moon, it had not passed through any atmosphere, for the specific weight of these different objects would have checked their relative speed.
On the side of the terrestrial sphere nothing was to be seen. The earth was but a day old,
Comments (0)