Submitted by taracus t3_ygfptx in askscience
Ripcord t1_iuakv3j wrote
Reply to comment by Aseyhe in Is dark matter orbiting galaxies with the same speed as normal matter? by taracus
Why couldn't gravitational interactions trap it?
Aumuss t1_iuamhj6 wrote
We think of the earth as gravitationally bound together, and it is, but, what gravity does is "pull". That's it, it "pulls you in a direction".
What stops you, are the other forces.
Normal matter just stops when it encounters other matter.
It can't pass through.
So, gravity pulls everything together, but the fact the stuff interacts means it clumps. It forms a big ball.
But dark matter doesn't stop when it hits the surface of the earth. Or even when it hits the middle, it just keeps going.
In fact, it just goes straight through the earth, as if the earth isn't even there.
The force of gravity isn't strong enough to hold fast moving particles that don't bang into things.
They just float away.
[deleted] t1_iubx2ma wrote
[removed]
Aseyhe t1_iuam3ie wrote
The first problem is that typical dark matter particles are moving at ~300 km/s with respect to the earth. But even if one particle was very fortunate and fell toward the earth from essentially zero relative velocity, the problem is conservation of energy. The particle would gain speed as it fell, pass through the earth, and then lose the same amount of speed on the way out of the system, escaping earth's influence again.
In principle a particle could be temporarily trapped in the earth's influence via an interaction with the moon, so that it would transfer its energy to the moon. However this still leaves it on an orbit that takes it at least as far as the moon, and it would eventually be ejected by another interaction with the moon. (This sometimes happens with solar system objects.)
Ripcord t1_iubx8am wrote
This makes sense to me. Thanks.
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