Heat Applied to Black Hole: What Happens?

AI Thread Summary
Applying heat to a black hole raises questions about energy transfer, particularly how photons behave near the event horizon, where they experience redshift. Shining photons at a black hole could theoretically increase its mass, which paradoxically lowers its effective temperature. The discussion highlights that black holes are not the only means of converting energy to rest mass, as this also occurs in particle accelerators and atmospheric interactions. The complexities of energy dynamics in relation to black holes remain a topic of intrigue and debate. Overall, the interaction of heat and energy with black holes presents unique challenges in understanding their properties.
Calimero
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If we somehow could apply a significant amount of heat to the black hole, what would happen? Photons get redshifted near the event horizon, so how energy transfer towards black hole goes?
 
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Calimero said:
If we somehow could apply a significant amount of heat to the black hole, what would happen? Photons get redshifted near the event horizon, so how energy transfer towards black hole goes?

How do you propose to heat the black hole? Radiation? Sure, we could try shining a bunch of photons in it. This would increase the mass of the black hole, which, curiously, decreases its [effective] temperature!
 
Well, I didn't say to raise its temperature, I said to transfer energy by the means of applying heat to it.

So can we state that black holes are only known way to convert energy to rest mass?
 
Calimero said:
So can we state that black holes are only known way to convert energy to rest mass?

That's not true. It routinely happens in particle accelerators and our own atmosphere.
 

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