ARGUMENT
0501-05
PRECEDENTS
- 0501-02:
That the average realspeed of the gravitons in the
gravitonocean and gravitonosphere of a blackhole is highest above the
equator and lowest at
the poles.
- 0501-03:
That a sufficient increase in the energy measure of an overstable blackhole
results in a movement of gravitons toward the equator and the
raising of an equatorial disc.
- 0501-04: That
a sufficient increase in the energy measure of an overstable blackhole results in
the forming of vortexes in the gravitonocean and gravitonosphere in which gravitons
stream from the equator to the poles at high level and from the poles
to the equator at low level.
PARAMETERS
- Consider a blackhole that has a gravitoncore surrounded by a gravitonocean and a gravitonosphere.
- Consider that the blackhole is overstable.
- Consider
that the blackhole's energy measure is sufficient to form vortexes that
stream from the equator to the poles at high level and from the poles
to the equator at low level.
- Consider that the energy measure of the blackhole is progressively increasing.
REASONING
- Because
the energy measure is progressively increasing, the average realspeed
of the gravitons in the gravitonocean and gravitonosphere is progressively
increasing.
- Because the average realspeed of the
blackhole's gravitons is progressively increasing, the height of the
equatorial disc is progressively increasing.
- Because
the average realspeed of the blackhole's gravitons is progressively
increasing, the gravitons at the top of the equatorial disc eventually
reach the gravitysheath interface.
- Because the gravitons at the top of the equatorial disc have reached the gravitysheath interface, the escape velocity and the vergence velocity of those gravitons is both zero.
- Because
the gravitons at the top of the equatorial disc have an escape velocity and
a vergence velocity of zero, the blackhole has become stable.
- Because
the blackhole has become stable, any further increase in the
blackhole's energy measure results in the ejection of gravitons, and thus
mass and energy, across the gravitysheath interface.
- Thus the blackhole is now stable and centrifugally structured.
CONCLUSION
- That
a sufficient increase in the energy measure of an overstable blackhole
will form a centrifugally structured stable blackhole.
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COMMENTARY - STABILITY
The arguments
in this chapter show that increasing the energy measure of an
overstable blackhole sufficiently will stabilise it in centrifugal
form. It should not be forgotten that understable blackholes are
already in centrifugal form and will eject gravitons, and thus mass and
energy, until they become stable.
COMMENTARY - DEFAULT
This
argument deals specifically with the centrifugal form as found in
blackholes. However, the centrifugal form is also the default form for
most of the structures in the Universe. It is seen in photons,
atoms, planets, stars, galaxies, galactic clusters, and the Universe
itself.
COMMENTARY - CLARIFICATION
Strictly,
the word "centrifugal" is misused here. Primarily, the gravitonocean
and gravitonosphere gravitons in the blackhole are subject to the
gravitypull of
the gravitoncore so the force involved is actually "centripetal". I
came to
use the word centrifugal as a way of differentiating this form of
blackhole structure from the other form - the "axial" blackhole - with
both terms being taken from the two predominant forms of gas turbine
aircraft engines.
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