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Part 0304 - Blackhole Mechanics |
ARGUMENT
0304-10
PRECEDENTS
PARAMETERS
- Consider that when a blackhole absorbs a graviton it absorbs a measure of energy.
- Consider that when a blackhole absorbs a graviton it absorbs a measure of mass.
- Consider
that if a blackhole absorbs equatable measures of energy and mass,
there is no change in the stability of the blackhole.
- Consider
that if an overstable blackhole absorbs proportionately more energy than mass,
there is a decrease in the overstability of the blackhole.
REASONING
- When a blackhole is overstable, it has an excess of mass over energy.
- Because it has an excess of mass over energy, its escape velocity exceeds its vergence velocity.
- Because
its escape velocity exceeds its vergence velocity, it absorbs
gravitons from beyond the gravitysheath interface.
- Because it absorbs gravitons, there is a consequent gain of mass and energy.
- Because it differentially gains more energy than mass, there is a decrease in the overstability.
- Because the escape velocity exceeds vergence velocity, the overstability continues to decrease.
- Because
the overstability continues to decrease, the measure by which escape
velocity exceeds vergence velocity continues to decrease.
- When
escape velocity and vergence velocity are the same, gravitons are no longer
absorbed from beyond the gravitysheath interface, mass and energy is no
longer gained, and the blackhole has become stable.
CONCLUSION
- That an overstable blackhole differentially absorbs mass and energy until it becomes stable.
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COMMENTARY - 1
Blackholes
are constantly absorbing and ejecting gravitons and, since all gravitons have
the same mass but a variable measure of energy, this means the
stability condition of each blackhole is constantly changing. At the
gravitysheath interface of a blackhole, the escape velocity is always
zero but the vergence velocity is rarely zero for long and, thus, a
blackhole is rarely stable for long. That said, the
default
condition for all blackholes is to be stable and blackhole has within
it the mechanism that will automatically attempt to return it to
the default condition.
COMMENTARY - 2
Stability
in a blackhole doesn't mean its mass and energy measures are
constant. It doesn't mean the absorption of a single graviton by a
stable
blackhole is necessarily followed by the ejection of a single
graviton. Absorbed gravitons cross the gravitysheath interface with a
variable
measure of energy - perhaps a low measure or perhaps one that is
extremely high. In contrast, ejected gravitons tend to have
just
enough energy to get them across the gravitysheath
interface. Thus the absorption of one high energy graviton
can
result in the ejection of two or more lower energy gravitons,
reestablishing the blackhole's stability at a lower mass
measure.
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