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Sphere(27)
Author: Michael Crichton

"It can't?"

"No," Ted said.

He took the empty bowl and set the orange in the bottom. "Now roll your ball straight across past the sun."

Norman flicked the ball bearing into the bowl. The ball curved, and spiraled down the inside of the bowl until it hit the orange.

"Okay," Ted said. "The spacecraft hit the sun, just like it would in real life."

"But if I gave it enough speed," Norman said, "it'd go right past it. It'd roll down and up the far side of the bowl and out again."

"Correct," Ted said. "Also like real life. If the spacecraft has enough velocity, it will escape the gravitational field of the sun."

"Right."

"So," Ted said, "what we are showing is that a spacecraft passing the sun in real life behaves as if it were entering a curved region of space around the sun. Space around the sun is curved like this bowl."

"Okay ..."

"And if your ball had the right speed, it wouldn't escape from the bowl, but instead would just spiral around endlessly inside the rim of the bowl. And that's what the planets are doing. They are endlessly spiraling inside the bowl created by the sun."

He put the orange back on the table. "In reality, you should imagine the table is made out of rubber and the planets are all making dents in the rubber as they sit there. That's what space is really like. Real space is curved-and the curvature changes with the amount of gravity."

"Yes..."

"So," Ted said, "space is curved by gravity."

"Okay."

"And that means that you can think of gravity as nothing more than the curvature of space. The Earth has gravity because the Earth curves the space around it."

"Okay."

"Except it's not that simple," Ted said.

Norman sighed. "I didn't think it would be."

Harry came back into the room, looked at the fruit on the table, but said nothing.

"Now," Ted said, "when you roll your ball bearing across the bowl, you notice that it not only spirals down, but it also goes faster, right?"

"Yes."

"Now, when an object goes faster, time on that object passes slower. Einstein proved that early in the century. What it means is that you can think of the curvature of space as also representing a curvature of time. The deeper the curve in the bowl, the slower time passes."

Harry said, "Well ..."

"Layman's terms," Ted said. "Give the guy a break."

"Yeah," Norman said, "give the guy a break."

Ted held up the bowl. "Now, if you're doing all this mathematically, what you find is that the curved bowl is neither space nor time, but the combination of both, which is calledspace-time. This bowl is space-time, and objects moving on it are moving in space-time. We don't think about movement that way, but that's really what's happening."

"It is?"

"Sure. Take baseball."

"Idiot game," Harry said. "I hate games."

"You know baseball?" Ted said to Norman.

"Yes," Norman said.

"Okay. Imagine the batter hits a line drive to the center fielder. The ball goes almost straight out and takes, say, half a second."

"Right."

"Now imagine the batter hits a high pop fly to the same center fielder. This time the ball goes way up in the air, and it takes six seconds before the center fielder catches it."

"Okay."

"Now, the paths of the two balls - the line drive and the pop fly - look very different to us. But both these balls moved exactly the same in space-time."

"No," Norman said.

"Yes," Ted said. "And in a way, you already know it. Suppose I ask you to hit a high pop fly to the center fielder, but to make it reach the fielder in half a second instead of six seconds."

"That's impossible," Norman said.

"Why? Just hit the pop fly harder."

"If I hit it harder, it will go higher and end up taking longer."

"Okay, then hit a low line drive that takes six seconds to reach center field."

"I can't do that, either."

"Right," Ted said. "So what you are telling me is that you can't make the ball do anything you want. There is a fixed relationship governing the path of the ball through space and time."

"Sure. Because the Earth has gravity."

"Yes," Ted said, "and we've already agreed that gravity is a curvature of space-time, like the curve of this bowl. Any baseball on Earth must move along the same curve of space-time, as this ball bearing moves along this bowl. Look." He put the orange back in the bowl. "Here's the Earth." He put two fingers on opposite sides of the orange. "Here's batter and fielder. Now, roll the ball bearing from one finger to the other, and you'll find you have to accommodate the curve of the bowl. Either you flick the ball lightly and it will roll close to the orange, or you can give it a big flick and it will go way up the side of the bowl, before falling down again to the other side. But you can't make this ball bearing do anything you want, because the ball bearing is moving along the curved bowl. And that's what your baseball is really doing - it's moving on curved space-time."

Norman said, "I sort of get it. But what does this have to do with time travel?"

"Well, we think the gravitational field of the Earth is strong - it hurts us when we fall down - but in reality it's very weak. It's almost nonexistent. So space-time around the Earth isn't very curved. Space-time is much more curved around the sun. And in other parts of the universe, it's very curved, producing a sort of roller-coaster ride, and all sorts of distortions of time may occur. In fact, if you consider a black hole - "

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