In particular, he remembered reading a 2003 physics paper in which planetary scientist Jack Wisdom of the Massachusetts Institute of Technology showed that an astronaut could move through curved space in ways that would be impossible according to Newton’s laws of motion-simply by making the right movements with his arms and legs. His situation may have seemed hopeless: his high school physics teacher had impressed on him that it is not possible to accelerate a body without an external force or some kind of mass ejection.įortunately for our adrift friend, he had earlier established that he was in a curved space, and he was wise enough to know that some conservation laws in physics work differently in a curved space than in the flat (uncurved), Newtonian space of his school years. He was now floating motionless with respect to his ship but still far away from it.
Alas, when he had nothing left to hurl, he found he had done only enough to counteract his initial motion away from the ship. He even unharnessed his jet pack and shoved that dead weight away as forcefully as he could. In accord with the principle of momentum conservation, with each throw he recoiled a little in the opposite direction-toward his ship. In fact, he and his triangle of foam were drifting away from his spacecraft at a constant velocity.Īcting quickly, he flung his protractor, laser, can of foam and all the other items on his utility belt directly away from his spacecraft. Alarmed, he saw his fuel gauge was at zero, and he was a good (or rather, bad) 100 meters from the safety of his air lock. Everard pressed the button to engage his jet pack again to return to his spaceship-and nothing happened. His feet and his head “wanted” to follow slightly different curves, and the discrepancy produced the stretching sensation. Experiments of a rather more refined nature than his jaunting about with shaving cream had confirmed these effects long ago: matter and energy cause space and time to curve, and the curvature of spacetime causes matter and energy (such as his laser beam and the light from the stars) to follow curved trajectories. Everard understood he was experiencing textbook effects of general relativity. The curvature would account for the distorted starlight and the slightly unpleasant feeling of being stretched. He concluded that the space around him also must be curved much like the surface of that globe, so many years and light-years away. There, too, the angles added up to more than 180 degrees. Everard fondly remembered a mischievous non-Euclidean incident in his childhood, when he drew triangles on the globe in his parents’ study. The result was more than 180 degrees.įar from being nonplussed by this apparent violation of the rules of geometry, Mr. Then he measured his triangle’s vertex angles with a protractor and added them up. With the laser beam serving as a guide, he jetted straight out 100 meters, turned left to travel several dozen meters in that direction and finally returned to his starting point, drawing a triangle of foam like a cosmic skywriter. Suspecting he knew what was afoot, he took a laser pointer and a can of shaving cream from his utility belt and turned on his jet pack to test his idea. He felt, too, something gently stretching his body. He noticed that the beautiful lights of the distant stars looked distorted, as though he were viewing them through a thick lens. Everard had gone outside his spaceship to repair an errant antenna. His remarkable story is replete with curved spacetime, cats twisting in midair, an imperiled astronaut dog paddling through a vacuum to safety-and Isaac Newton perhaps spinning in his grave. He told me of an amazing experience he had involving some recently discovered aspects of Einstein's theory of general relativity, which I will share with you. Everard, a philosopher and engineer who is carrying on his ancestor's tradition. Not long ago I figuratively encountered one of Mr. In one of these worlds, for instance, the speed of light was 15 kilometers per hour, putting the weird effects of Einstein's theory of special relativity on display if you so much as rode a bicycle. Tompkins, a humble bank clerk who had vivid dreams of worlds where strange physical phenomena intruded into everyday life.
In a famous series of stories in the 1940s, physicist George Gamow related the adventures of one Mr.
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