Can strongly radiating matter cause dark matter to clump?
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Ordinary matter clumps under gravitational attraction only when it loses energy through radiation. Dark matter supposedly doesn't clump since it can only exchange energy with itself and ordinary matter gravitationally. However, if dark matter is interacting with ordinary matter that is losing energy through radiation, wouldn't the dark matter also lose energy by proxy, causing it to clump? By this reasoning dark matter should be denser where ordinary matter is (or has been) radiating strongly. I.e. did matter clump first, and cause dark matter to clump, or vice-versa
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Heya....
Only dark matter clumps under gravitational force only when it losses energy through radiation...
Dark matter supposely diese clump since it only exchange energy with itself....
So that this reason dark matter should be fender where ordinary matte is radiatingly stronger....
Only dark matter clumps under gravitational force only when it losses energy through radiation...
Dark matter supposely diese clump since it only exchange energy with itself....
So that this reason dark matter should be fender where ordinary matte is radiatingly stronger....
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