Could the recently discovered “Dancing Black Holes” be the experimental signature of Hawking Radiation?
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0
Hey mate ^_^
The temperature of supermassive black holes is far, far lower then the temperature of the CMB, so the black holes will be gaining mass from the CMB faster than they can lose it by Hawking radiation....
#Be Brainly❤️
The temperature of supermassive black holes is far, far lower then the temperature of the CMB, so the black holes will be gaining mass from the CMB faster than they can lose it by Hawking radiation....
#Be Brainly❤️
Answered by
3
Hello mate here is your answer.
two gravitationally bound massive black holes that are slowly receding from each other. Under normal circumstances two such bound black holes would be approaching each other as they gain mass by capturing matter near their event horizons. For two black holes to be slowly receding they would need to be losing mass (unless they are part of a three body system that might account for the recession).
Hope it helps you.
two gravitationally bound massive black holes that are slowly receding from each other. Under normal circumstances two such bound black holes would be approaching each other as they gain mass by capturing matter near their event horizons. For two black holes to be slowly receding they would need to be losing mass (unless they are part of a three body system that might account for the recession).
Hope it helps you.
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