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Physics, Astronomy & Cosmology / Re: What would micro black-holes made at the large hadron collider (LHC) look like?
« on: 08/02/2018 13:37:57 »A normal black hole forms under pressure.
I'm not being critical, but "forms" is present tense. Black holes are postulates of data gathered from observed phenomena light years away, and even then its a mathematical calculation. If our math is that good then "forms" is the right word.......and what is a "normal" black hole compared to an "abnormal" one given the observations of this term are based on the red shift effect and cosmic microwave background radiation rounded into this event without any elementary particle collider feature to be taken noted of in such experiments?
Black holes can theoretically form from collapsing stars or larger mass bodies. They can also theoretically be an ancient artifact of the original primordial atom singularity. There is nothing that says that the primordial atom singularity of the BB had to completely atomized all the way to sub particles. The primordial atom could have been an expansion that also allowed the formation of many ancient daughter black holes. Pressure would be needed for these daughter black hole phases to remain.
The analogy would be say we had a huge neutron star that has enough mass to theoretically be equal to 100 smaller neutron stars. We rig this grand daddy neutron star to explode, but in a controlled way that allows it to break up into pieces. We try not to disrupt things too much so each piece can consolidate itself, to form daughter neutron stars. This break up is not perfect, so we also get a lot of debris in the process; lose part of the C to C- phase.
As the original mass density of the primordial atom lowers, by forming smaller neutrons stars and debris, space-time expands and the pressure drops, even more. New phases appear, except in the blackhole areas, which maintain their nature.They move with space-time and the debris field.
If you were to sit in the middle of a daughter black hole, since the reference is very close to C and C-, as far as you are concerned, the primordial atom never appeared to do anything, since distances and time still appear so contracted. Distinction, as we know it, is only seen where space-time is much less contracted than C; space-time debris field.
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