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On Fri, 1 Nov 2024 0:35:07 +0000, LaurenceClarkCrossen wrote:Galaxies don't need super-massive black-holes at their>>
It cannot. Therefore, it must move much faster than c.
Actually, it's an energy thing, and particles that travel
faster than light lose energy the faster they go, so FTL
doesn't make it out either.
>
Perhaps there are other reasons than that. There is some
dithering about WHERE all the matter is. As matter approaches
a BH, we, far away, see time slowing down for it and time stops
at the event horizon ... so it never makes it inside the BH:
it all piles up there just outside the surface.
>
The surface isn't stable due to quantum mechanics, it's
changing, moving back and forth, so some of the matter inside
that formed the BH in the first place is sometimes outside
the surface.
>
Of course, the physicists wave their arms and say spacetime is
curved, as if that explains everything.
>
Actually, this is an interesting question because just think
about matter falling into, say, the core of a neutron star.
It gets compressed more and more, quantum pressure fighting
against compression until, finally, the event horizon is
outside a sufficiently-compressed core radius. After that,
no more can get in and it piles up in an accretion disk.
>
Another thought: the ekpyrotic theory says that the Big Bank
was initiated by a quantum interaction with an adjacent
brane, and such interactions would have a gaussian distribution.
Perhaps the peak of the distribution was able to form a BH
instantaneously. How big would that be? And would only ONE
peak be formed? I think not. Maybe most of the galaxies
were formed by multitudes of gaussian distributions and that's
why most galaxies have a supermassive BH at their centers.
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