Since heat effects quantum entanglement, what is their relationship in a Black Hole?

[promytius]

I have read comments on BHs being super-hot and super-cold. I'm curious about this interaction under all conditions, however the BH presents possibly the most extreme environment to analyze how temperatures effect entanglement, and what those consequences would be within the BH. I have no ideas on this, so comments would be appreciated.

 

[Gibsense]

If space is supposed to shrink as time moves toward a singularity (or whatever) in a black hole, that is the opposite of a fridge function.
I sometimes think that people tend to attribute qualities to a black hole which should really be assigned to the "other side"; the white hole side (the fridge side). WE are cooling

 

[promytius]

Can you resolve that with this, found on the web?
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Yes, black holes are considered extremely cold, with temperatures near absolute zero, meaning they are essentially as cold as possible according to our current understanding of physics; the material falling into a black hole heats up significantly, but the black hole itself is incredibly cold.


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[Gibsense]

Can you resolve that with this, found on the web?

No! Just my opinion follows
The space between the singularity and the event horizon is a big mystery zone. The star itself exists not just inside the black hole but at the singularity - if it still actually exists as a star - the space between the star and the event horizon is just that - space. However, time is squeezing that space not expanding it.

Within the space, inside the black hole, there is room for vibration (heat). At the star the complete compression may well prevent vibration but I think this unlikely in favour of a transition

 

[Atlan0001]

I don't believe either relative heat or relative cold effects any singularity of quantum entanglement. They would be rogue soliton Trojans, their own soliton bubble micro-mini-verses, spaces, inside the relative gates. Possibly, potentially, even creative hyperspaces (to mean herein artificially created versions of Heisenberg's principle of uncertainty) via continuous accelerative powering, discovery, whatever.

 

[Classical Motion]

A quantum entanglement would have a set temperature. If you change one, you change the other.

My supposition is that science misunderstands quantum entanglement.

 

[Atlan0001]

A quantum entanglement would have a set temperature. If you change one, you change the other.

My supposition is that science misunderstands quantum entanglement.

A soliton is a solitary wave-bubble space-time stealing space-time from another spacetime.... Could be a bow wave building as a vacuum bubble, a wave vector magnitude of gravity well tied to the source of powering and the powering itself. You have to think uncertainty principle (regarding positioning) and Cantor space.