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Part 0402 - Stratification Mechanics |
ARGUMENT
0402-09
PRECEDENTS:
PARAMETERS:
- Consider
that the density and kineticenergy of the blackhole core is such that
collisions between blackholes are frequent and violent.
- Consider that, resulting from the frequent collisions, the stability condition of the blackholes in the core changes frequently.
- Consider
that the changes in stability can be in degrees of overstability or
understability - or they can be from overstable to understable and vice
versa.
- Consider that the density and kineticenergy of the blackhole core is such that understable blackholes predominate.
REASONING:
- Because understable blackholes predominate in the blackhole core, the blackhole core is itself understable.
- Because the blackhole core is understable, its vergence velocity exceeds its escape velocity.
- Because
the vergence velocity of the blackhole core exceeds its escape
velocity, it differentially ejects mass and energy across its
gravitysheath interface.
- Because the blackhole core is
differentially ejecting mass and energy across its gravitysheath
interface, it is losing more energy than mass.
- Because
the blackhole core is losing more energy than mass, it is ejecting high
energy gravitons while absorbing any available low energy gravitons.
CONCLUSION:
- That the
blackhole core of the Universe is understable.
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COMMENTARY:
This is the moment when the blackhole core of the Universe becomes an energy filter.
The
Universe's blackhole core looks very different today with its gas
clouds and stars and galaxies and galactic clusters. Underlying the
different appearance, however, the same process that fired into action
13 billion years ago is still functioning. Today's blackhole core
is still a working energy filter, ejecting high energy gravitons
across its gravitysheath interface and absorbing any low energy gravitons
that may pass by.
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