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Prev My son (5y) asked me today: If there were a kind of a fireman’s pole from the Moon down to the Earth, how long would it take to slide all the way from the Moon to the Earth? Ramon Schönborn, Germany First, let’s get a few things out of the way: In real life, we can’t put a metal pole between the Earth and the Moon. [1] For one, someone at NASA would probably yell at us. The end of the pole near the Moon would be pulled toward the Moon by the Moon’s gravity, and the rest of it would be pulled back down to the Earth by the Earth’s gravity. The pole would be torn in half. Another problem with this plan. The Earth’s surface spins faster than the Moon goes around, so the end that dangled down to the Earth would break off if you tried to connect it to the ground: There’s one more problem: [2] Ok, that’s a lie—there are, like, hundreds more problems. The Moon doesn’t always stay the same distance from Earth. Its orbit takes it closer and farther away. It’s not a big difference, [3] You may occasionally see people get excited about the " supermoon ," a full Moon that appears slightly larger because it happens at the time of the month when the Moon is closest to Earth. But really, the full Moon always looks surprisingly large and pretty when it’s near the horizon, thanks to the Moon illusion . In my opinion, it’s worth going outside and looking at the Moon whenever it’s full, regardless of whether it’s super or not. but it’s enough that the bottom 50,000 km of your fire station pole would be squished against the Earth once a month. But let’s ignore those problems! What if we had a magical pole that dangled from the Moon down to just above the Earth’s surface, expanding and contracting so it never quite touched the ground? How long would it take to slide down from the Moon? If you stood next to the end of the pole on the Moon, a problem would become clear right away: You have to slide up the pole, and that’s not how sliding works. Instead of sliding, you’ll have to climb. People can climb poles pretty fast. World-record pole climbers [4] Of course there’s a world record for pole climbing. can climb at over a meter per second in championship competition . [5] Of course there are championship competitions. On the Moon, gravity is much weaker, so it will probably be easier to climb. On the other hand, you’ll have to wear a spacesuit, so that will probably slow you down a little. If you climb up the pole far enough, Earth’s gravity will take over and start pulling you down. When you’re hanging onto the pole, there are three forces pulling on you: The Earth’s gravity pulling you toward Earth, the Moon’s gravity pulling you away from Earth, and centrifugal force [6] As usual, anyone arguing about "centrifugal" versus "centripetal" force will be put in a centrifuge . from the swinging pole pulling you away from Earth. [7] At the distance of the Moon’s orbit and the speed it’s traveling, centrifugal force pushing away is exactly balanced by the Earth’s gravity—which is why the Moon orbits there. At first, the combination of the Moon’s gravity and centrifugal force are stronger, pulling you toward the Moon, but as you get closer to the Earth, Earth’s gravity takes over. The Earth is pretty big, so you reach this point—which is known as the L1 Lagrange point—while you’re still pretty close to the Moon. Unfortunately for you, space is big, so "pretty close" is still a long way. Even if you climb at better-than-world-record speed, it will still take you several years to get to the L1 crossover point. As you approach the L1 point, you’ll start to be able to switch from climbing to pushing-and-gliding: You can push once and then coast a long distance up the pole. You don’t have to wait to stop, either—you can grab the pole again and give yourself a push to move even faster, like a skateboarder kicking several times to speed up. Eventually, as you reach the vicinity of the L1 point and are no longer fighting gravity, the only limit on your speed will be how quickly you can grab the pole and "throw" it past you. The best baseball pitchers can move their hands at about 100 mph while flinging objects past them, so you probably can’t expect to move much faster than that. Note: While you’re flinging yourself along, be careful not to drift out of reach of the pole. Hopefully you brought some kind of safety line so you can recover if that happens. After another few weeks of gliding along the pole, you’ll start to feel gravity take over, speeding you up faster than you can go by pushing yourself. When this happens, be careful—soon, you’ll need to start worrying about going too fast. As you approach the Earth and the pull of its gravity increases, you’ll start to speed up quite a bit. If you don’t stop yourself, you’ll reach the top of the atmosphere at roughly escape velocity—11 km/s [8] This is why anything that falls into the Earth hits the atmosphere fast enough to burn up. Even if an object is moving slowly when it’s drifting through space, when it gets close to the Earth it gets accelerated up to at least escape velocity by that final segment of the trip down into the Earth’s gravity well. —and the impact with the air will produce so much heat that you risk burning up. Spacecraft deal with this problem by including heat shields, which are capable of absorbing and dissipating this heat without burning up the spacecraft behind it. [9] People often ask why we don’t use rockets to slow down, to avoid the need for a heat shield. You can read this article for an explanation, but the bottom line is that changing your speed by 11 km/s takes either a tank of fuel the size of a building or a tiny heat shield, and the tiny heat shield is a lot easier to carry. Thanks to heat shields, slowing down is much easier than speeding up—which requires the aforementioned giant fuel tank. (For more on this, see this What If question ). Heat shields only work for slowing down; if there were a way to use the same heat shield mechanism to speed up , space travel would get a lot easier. Sadly, no one’s figured out a practical way to build a "reverse heat shield" rocket. However, while the idea seems silly, in a sense it’s sort of the principle behind both Project Orion and laser ablation propulsion . Since you have this handy metal pole, you can control your descent by clamping onto it and controlling your rate of descent through friction. Make sure to keep your speed low during the whole approach and descent—and, if necessary, pausing to let your hands or brakepads cool down—rather than waiting until the end to try to slow down. If you get up to escape velocity, then at the last minute remember that you need to slow down, you’ll be in for an unpleasant surprise as you try to grab on to the pole. At best, you’ll be flung away and plummet to your death. At worst, your hands and the surface of the pole will both be converted into exciting new forms of matter, and then you’ll be flung away and plummet to your death. Assuming you descend slowly and enter the atmosphere in a controlled manner, you’ll soon encounter your next problem: Your pole isn’t moving at the same speed as the Earth. Not even close. The land and atmosphere below you are moving very fast relative to you. You’re about to drop into some extremely strong winds. The Moon orbits around the Earth at a speed of roughly one kilometer per second, making a wide circle [10] Yes, I know, orbits are conic sections which in the case of the Moon is technically not exactly a circle. It’s actually a pentagon. every 29 days or so. That’s how fast the top end of our hypothetical fire pole will be traveling. The bottom end of the pole makes a much smaller circle in the same amount of time, moving at an average speed of only about 35 mph relative to the center of the Moon’s orbit: 35 miles per hour doesn’t sound bad. Unfortunately for you, the Earth is also spinning, [11] I mean, unfortunately in this specific context. In general, the fact that the...
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