A Honeymoon in Space
Public Domain
Chapter XVII
The relative position of the two giants of the Solar System at the moment when the Astronef left the surface of Ganymede, was such that she had to make a journey of rather more than 340,000,000 miles before she passed within the confines of the Saturnine System.
At first her speed, as shown by the observations which Redgrave took with the instruments which Professor Rennick had designed for the purpose, was comparatively slow. This was due to the tremendous pull of Jupiter and its four moons on the fabric of the vessel. The backward drag rapidly decreased as the pull of Saturn and his system began to overmaster that of Jupiter.
It so happened, too, that Uranus, the next outer planet of the Solar System, 1,700,000,000 miles away from the Sun, was approaching its conjunction with Saturn, and so assisted in producing a constant acceleration of speed.
Jupiter and his satellites dropped behind, sinking, as it seemed to the wanderers, down into the bottomless gulf of Space, but still forming by far the most brilliant and splendid object in the skies. The far-distant Sun, which, seen from the Saturnian System, has only about a nineteenth of the superficial extent which it presents to the Earth, dwindled away rapidly until it began to look like a huge planet, with the Earth, Venus, Mars, and Mercury as satellites. Beyond the orbit of Saturn, Uranus, with his eight moons, was shining with the lustre of a star of the first magnitude, and far above and beyond him again hung the pale disc of Neptune, the Outer Guard of the Solar System, separated from the Sun by a gulf of more than 2,750,000,000 miles.
When two-thirds of the distance between Jupiter and Saturn had been traversed, Ringed Orb lay beneath them like a vast globe surrounded by an enormous circular ocean of many-coloured fire, divided, as it were, by circular shores of shade and darkness. On the side opposite to them a gigantic conical shadow extended beyond the confines of the ocean of light. It was the shadow of half the globe of Saturn cast by the Sun across his rings. Three little dark spots were also travelling across the surface of the rings. They were the shadows of Mimas, Enceladus, and Tethys, the three inner satellites. Japetus, the most distant, which revolves at a distance ten times greater than that of the Moon from the Earth, was rising to their left above the edge of the rings, a pale, yellow, little disc shining feebly against the black background of Space. The rest of the eight satellites were hidden behind the enormous bulk of the planet and the infinitely vaster area of the rings.
Day after day Zaidie and her husband had been exhausting the possibilities of the English language in attempting to describe to each other the multiplying marvels of the wondrous scene which they were approaching at a speed of more than a hundred miles a second, and at length Zaidie, after nearly an hour’s absolute silence, during which they sat with eyes fastened to their telescopes, looked up and said:
“It’s no use, Lenox, all the fine words that we’ve been trying to think of have just been wasted. The angels may have a language that you could describe that in, but we haven’t. If it wouldn’t be something like blasphemy I should drop down to the commonplace, and call Saturn a celestial spinning-top, with bands of light and shadow instead of colours all round it.”
“Not at all a bad simile either,” laughed Redgrave, as he got up from his chair with a yawn and a stretch of his long limbs, “still, it’s as well that you said celestial, for, after all, that’s about the best word we’ve found yet. Certainly the Ringed World is the most nearly heavenly thing we’ve seen so far.
“But,” he went on, “I think it’s about time we were stopping this headlong fall of ours. Do you see how the landscape is spreading out round us? That means that we are dropping pretty fast. Whereabouts would you like to land? At present we’re heading straight for Saturn’s north pole.”
“I think I’d rather see what the rings are like first,” said Zaidie; “couldn’t we go across them?”
“Certainly we can,” he replied, “only we’ll have to be a bit careful.”
“Careful, what of--collisions? Are you thinking of Proctor’s hypothesis that the rings are formed of multitudes of tiny satellites?”
“Yes, but I should go a little farther than that, I should say that his rings and his eight satellites are to Saturn what the planets generally and the ring of the Asteroides are to the Sun, and if that is the case--I mean if we find the rings made up of myriads of tiny bodies flying round with Saturn--it might get a bit risky.
“You see the outside ring is a bit over 160,000 miles across, and it revolves in less than eleven hours. In other words we might find the ring a sort of celestial maelstrom, and if we once got into the whirl, and Saturn exerted his full pull on us, we might become a satellite, too, and go on swinging round with the rest for a good bit of eternity.”
“Very well then,” she said, “of course we don’t want to do anything of that sort, but there’s something else I think we could do,” she went on, taking up a copy of Proctor’s “Saturn and its System,” which she had been reading just after breakfast. “You see those rings are, all together, about 10,000 miles broad; there’s a gap of about 1,700 miles between the big dark one and the middle bright one, and it’s nearly 10,000 miles from the edge of the bright ring to the surface of Saturn. Now why shouldn’t we get in between the inner ring and the planet? If Proctor was right and the rings are made of tiny satellites and there are myriads of them, of course they’ll pull up while Saturn pulls down. In fact Flammarion says somewhere that along Saturn’s equator there is no weight at all.”
“Quite possible,” replied Redgrave, “and, if you like, we’ll go and prove it. Of course, if the Astronef weighs absolutely nothing between Saturn and the rings, we can easily get away. The only thing that I object to is getting into this 170,000-mile vortex, being whizzed round with Saturn every ten and a half hours, and sauntering round the Sun at 21,000 miles an hour.”
“Don’t!” she said. “Really it isn’t good to think about these things, situated as we are. Fancy, in a single year of Saturn there are nearly 25,000 Earth-days. Why, we should each of us be about thirty years older when we got round, even if we lived, which, of course, we shouldn’t. By the way, how long could we live for, if the worst came to the worst?”
“Given water, about one Earth-year at the outside;” “but, of course, we shall be home long before that.”
“If we don’t become one of the satellites of Saturn,” she replied, “or get dragged away by something into the outer depths of Space.”
Meanwhile the downward speed of the Astronef had been considerably checked. The vast circle of the rings seemed to suddenly expand, and soon it covered the whole floor of the Vault of Space.
As she dropped towards what might be called the limit of the northern tropic of Saturn, the spectacle presented by the rings became every minute more and more marvellous--purple and silver, black and gold, dotted with myriads of brilliant points of many-coloured light, they stretched upwards like vast rainbows into the Saturnian sky as the Astronef’s position changed with regard to the horizon of the planet. The nearer they approached the surface, the nearer the gigantic arch of the many-coloured rings approached the zenith. Sun and stars sank down behind it, for now they were dropping through the fifteen-year-long twilight that reigns over that portion of the globe of Saturn which, during half of his year of thirty terrestrial years, is turned away from the Sun.
The further they fell towards the rings the more certain it became that the theory of the great English astronomer was the correct one. Seen through the telescopes at a distance of only thirty or forty thousand miles, it became perfectly plain that the outer or darker ring as seen from the Earth was composed of myriads of tiny bodies so far separated from each other that the rayless blackness of Space could be seen through them.
“It’s quite evident,” said Redgrave, after a long look through his telescope, “that those are rings of what we should call meteorites on Earth, atoms of matter which Saturn threw off into Space after the satellites were formed.”
“And I shouldn’t wonder, if you will excuse my interrupting you,” said Zaidie, “if the moons themselves have been made up of a lot of these things going together when they were only gas, or nebula, or something of that sort. In fact, when Saturn was a good deal younger than he is now, he may have had a lot more rings and no moons, and now these aerolites, or whatever they are, can’t come together and make moons, because they’ve got too solid.”
Meanwhile the Astronef was rapidly approaching that portion of Saturn’s surface which was illuminated by the rays of the Sun, streaming under the lower arch of the inner ring.
To read the complete story you need to be logged in:
Log In or
Register for a Free account
(Why register?)
* Allows you 3 stories to read in 24 hours.