How far does the Earth Move when you jump?

How far does the Earth Move when you jump?

I read somewhere that when you jump, the sole effect caused by your jump on the earth moves it about 10 − 18 m (I don’t remember the figure exactly, but I think it was that).

Is it possible to speed up the Earth’s rotation?

And the amazing thing is, in much the same way as a spinning ice-skater is able to speed up when they move their arms and legs closer to their body, because more mass in the centre means a faster spin, you can actually speed up Earth’s rotation.

What would happen if Earth was rigid and responded instantly?

Even if the Earth were rigid and responded instantly, it would be pushed down by less than an atom’s width. Next, everyone falls back to the ground. Technically, this delivers a lot of energy into the Earth, but it’s spread out over a large enough area that it doesn’t do much more than leave footprints in a lot of gardens.

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How much heavier is the Earth than the human population?

The mass of the total world population is roughly 7 billion times 80 kg or about 6 ⋅ 10 11 kg. So earth is 13 orders of magnitude (10 trillion times) heavier than the world’s human population. Suppose that the total mass of people gets together at one spot and everyone jumps up at the same time with a speed of about 1 m/s.

Being elastic, the entire earth does not accelerate all at once away from you when you jump. Instead, you just deform a tiny bit of earth right under your feet. If the ground you are standing on is loose and weak, such as sand or mud, then the deformation caused by jumping only travels a few meters.

What happens to the Earth’s elasticity when you jump?

This means that when you jump, you don’t actually exert a force on the entire earth at once. Being elastic, the entire earth does not accelerate all at once away from you when you jump. Instead, you just deform a tiny bit of earth right under your feet.

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How far does the deformation caused by jumping travel?

If the ground you are standing on is loose and weak, such as sand or mud, then the deformation caused by jumping only travels a few meters. If you jump while you are standing on bedrock, then the deformation will ripple away for several meters in the form of very weak seismic waves.

Why don’t humans jump off the Earth?

The seismic waves caused by humans jumping are so weak that they are quickly overpowered by the seismic waves caused by more powerful forces such as ocean waves, wind, and earthquakes.