Black hole's aren't completely black at all
Classical Mechanics
Level
1
Which of the following concept/s makes Hawking Radiation (Radiation emissions from black holes, particles carrying its energy escaping the black hole) possible, and hence makes black body radiation and entropy still right even when black holes trap light beyond the No Return point?
Black holes don't emmit radiation since the gravitational pull traps light
Because photons increase their acceleration because of light pressure and escape
Pauli's Exclusion Principle creates a force so that particles are emmited.
Virtual particles are formed and before annihilating one is absorbed while the other escapes
Because the particles can escape it's orbit because of the black holes rotation
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1 solution
Virtual particles are created because of how the Heisenberg's Uncertainty Principle applies to the success horizon since you apply it to energy and time, and so if the energy was 0 then there would be no uncertainty so there has to be some energy(which is the same as matter to this purposes).Then virtual particles (a particle and it's antiparticle, because charges must be conserved, so if you have a 0 charge this must remain this way) appear from "nowhere"(these are Quantum Fluctuations) and they'll normally annihilate each other but then one falls to the black hole and the other one escapes the black hole's grasp leaving with some of it's energy or just by colliding with another particle and reducing it's mass in doing so. This can also be interpreted in other ways, by applying different types of symmetries, (the C, P, T or combination of some of these).