It didn't take a ton of water to move a ton of ship. It was not mass equals mass, but mass time!! velocity equals mass times velocity. It didn't matter, in other words, whether you shot out a ton of water at a mile a second or a hundred pounds of water. at twenty miles a second. You got the same final velocity out of the ship.
That meant the jet nozzles had to be made narrower and the steam hotter. But then drawbacks appeared. The narrower the nozzle, the more energy was lost in friction and turbulence. The hotter the steam, the more refractory the nozzle had to be and the shorter its life. The limit in that direction was quickly reached.
Then, since a given weight of water could move considerably more than its own weight under the narrow-nozzle conditions, it paid to be big. The bigger the water - storage space, the larger the size of the actual travel-head, even in proportion. So they started to make liners heavier and bigger. But then the larger the shell, the heavier the bracings, the more difficult the weldings, the more exacting the engineering requirements. At the moment, the limit in that direction had been reached also.
And then he had put his finger on what had seemed to him to be the basic flaw - the original unswervable conception that the fuel had to be placed inside the ship; the metal had to be built to encircle a million tons of water.
Why? Water did not have to be water. It could be ice, and ice could be shaped. Holes could be melted into it. Travelheads and jets could be fitted into it. Cables could hold travelheads and jets stiffly together under the influence of magnetic field-force grips.
Long felt the trembling of the ground he walked on. He was at the head of the fragment. A dozen ships were blasting in and out of sheaths carved in its substance, and the fragment shuddered under the continuing impact.
The ice didn't have to be quarried. It existed in proper chunks in the rings of Saturn. That's all the rings were - pieces of nearly pure ice, circling Saturn. So spectroscopy stated and so it had turned out to be. He was standing on one such piece now, over two miles long, nearly one mile thick. It was almost half a billion tons of water, all in one piece, and he was standing on it.
But now he was face-to-face with the realities of life. He had never told the men just how quickly he had expected to set up the fragment as a ship, but in his heart, he had imagined it would be two days. It was a week now and he didn't dare to estimate the remaining time. He no longer even had any confidence that the task was a possible one. Would they be able to control jets with enough delicacy through leads slung across two miles of ice to manipulate out of Saturn's dragging gravity?
Drinking water was low, though they could always distill more out of the ice. Still, the food stores were not in a good way either.
He paused, looked up into the sky, eyes straining. Was the object growing larger? He ought to measure its distance. Actually, he lacked the spirit to add that trouble to the others. His mind slid back to greater immediacies.
Morale, at least, was high. The men seemed to enjoy being out Saturn-way. They were the first humans to penetrate this far, the first to pass the asteroids, the first to see Jupiter like a glowing pebble to the naked eye, the first to see Saturn-like that.
He didn't think fifty practical, case-hardened, shell-snatching Scavengers would take time to feel that sort of emotion. But they did. And they were proud.
Two men and a half-buried ship slid up the moving horizon as he walked.
He called crisply, "Hello, there!"
Rioz answered, "That you, Ted?"
"You bet. Is that Dick with you?"
"Sure. Come on, sit down. We were just getting ready to ice in and we were looking for an excuse to delay."
"I'm not," said Swenson promptly. "When will we be leaving, Ted?"
"As soon as we get through. That's no answer, is it?"
Swenson said dispiritedly, "I suppose there isn't any other answer."
Long looked up, staring at the irregular bright splotch in the sky.
Rioz followed his glance. "What's the matter?"
For a moment, Long did not reply. The sky was black otherwise and the ring fragments were an orange dust against it. Saturn was more than three-fourths below the horizon and the rings were going with it. Half a mile away a ship bounded past the icy rim of the planetoid into the sky, was orange - lit by Saturn - light, and sank down again.
The ground trembled gently.
Rioz said, "Something bothering you about the Shadow?"
They called it that. It was the nearest fragment of the rings, quite close considering that they were at the outer rim of the rings, where the pieces spread themselves relatively thin. It was perhaps twenty miles off, a jagged mountain, its shape clearly visible.
"How does it look to you?" asked Long.
Rioz shrugged. "Okay, I guess. I don't see anything wrong."
"Doesn't it seem to be getting larger?"
"Why should it?"
"Well, doesn't it?" Long insisted.
Rioz and Swenson stared at it thoughtfully.
"It does look bigger," said Swenson.
"You're just putting the notion into our minds," Rioz argued. "If it were getting bigger, it would be coming closer."
"What's impossible about that?"
"These things are stable orbits."
"They were when we came here," said Long. "There, did you feel that?"
The ground had trembled again.
Long said, "We've been blasting this thing for a week now. First, twenty-five ships landed on it, which changed its momentum right there. Not much, of course. Then we've been melting parts of it away and our ships have been blasting in and out of it - all at one end, too. In a week, we may have changed its orbit just a bit. The two fragments, this one and the Shadow, might be converging."