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Part 1 - Cosmic Photon Creation (cont) |
ARGUMENT
0603
BROUGHT
FORWARD:
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ARGUMENT
0602: As the Universe expands, increasing numbers of understable
blackholes become stable.
REASONING:
- Over
time teelospheres entropically come to echo the spin of their
teelcores.
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Over
time blackhole spin entropically becomes commensurate to blackhole
speed.
-
Over
time and in any given location, blackholes entropically stabilise to
a pair of blackbody scales:
- BLACKBODY
SCALE 1: On a line drawn from the Ucentre to the Usurface.
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BLACKBODY
SCALE 2: At any distance from the Ucentre on the line of Blackbody
Scale 1:
- At
any location, the intensity peaks of Scale 1 and Scale 2 are the
same.
CONCLUSION:
-
As
the Universe expands, in any given location, blackholes entropically
stabilise to a pair of blackbody scales.
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GLOSSARY:
- blackbody scale: Photons are
emitted by a blackbody per a consistent scale of wavelength and
intensity. The wavelength equates to the mass of the photons. The
intensity equates to the sum of the photon's spinspeed at each
wavelength. Typically, a blackbody scale has an intensity peak which
varies with the energy of the emitting blackbody.
- entropy:
The tendency of unevenly distributed energy to become evenly
distributed over time. Entropy results from collisions between
objects and the consequent transfer of spinspeed from one to another.
Through collisions between objects, spin and speed are likewise
subject to entropic equalisation, tending to become evenly
distributed over time.
- intensity peak:
In any emission
of photons to a blackbody scale, there is an intensity peak. The
intensity peak varies with the energy of the emitting body. In
cosmic photons, which are detected today to a blackbody scale, the
intensity peak varied with the spinspeed of the Universe region in
which the photons first stabilised.
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