Comments by "Delibro" (@Delibro) on "Why Black Hole Environments Are a Lot More Complicated Than We Thought" video.

I think there's another reason why no one can fall into a black hole. And by the way may solve all difficulties with the singularity along the way: If a particle falls directly towards a black hole, it accelerates due to gravity, but if it gets nearer the event horizon, time decelerates. If we stay in the reference frame of the particle, its time stays normal and instead the whole outside universes time speeds up. If the particle is just above the event horizon, time in the universe runs at nearly infinite speed. This means, Hawking radiation is now really noticeable, shrinking the mass of the black hole, shrinking its even horizon, thus, the event horizon pulls back from it - The more the particle approaches the event horizon, the quicker it retracts. If all the black holes mass is gone, the particle goes his way with near light speed as if nothing has happened. But this implies much more: EVERY particle the black hole is made of got into it in the way I just mentioned, thus stays at the event horizon at the time it approached it. So nothing is in the center, all is hovering in time at its shell. Finally the black hole Hawking radiationed away and there never was any infinit dense mass, no singularity, no physical difficulties.
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