SELFPROOF 0302
- PRIMORDIAL BLACKHOLE
CURRENT COSMOLOGY MODEL
A
primordial blackhole is a hypothetical type of
blackhole that is formed not by the gravitational collapse of a large
star but by the extreme density of matter present during the
universe's early expansion. According to the Big Bang Model, during
the first few moments after the Big Bang, pressure and temperature
were extremely great. Under these conditions, simple fluctuations in
the density of matter may have resulted in local regions dense enough
to create black holes. Although most regions of high density would be
quickly dispersed by the expansion of the universe, a primordial
blackhole would be stable, persisting to the present. (Wikipedia 25
Feb 2012)
MALTA COSMOLOGY TEMPLATE
- A blackhole consists of a minimum of three teels matrixed to each other as three stable/overstable teelpairs. (see Argument 0312)
- As the Universe expands, the blackholes in its blackhole core collide and thus spin as well as speed. (see Argument 0601)
- As the Universe expands, increasing numbers of understable blackholes become stable. (see Argument 0602)
COMMENTARY
In
the hypothetical beginning described in Chapter Two, the Universe began
its present expansion phase as an understable blackhole
one billion lightyears in diameter. Subsequently, in expanding, it
fractured into vast numbers of primordial blackholes. Notwithstanding
the expansion, the blackholes were still densely packed and
had prodigious spinspeed. Due to the mutual gravitypull of its
teels the expansion of the Universe progressively slowed and as it did
so it the realspinspeed of its understable blackholes
progressively transmuted to potentialspeed. In doing so a
proportion of the blackholes stabilised into photons, some of
which are still with us as the Cosmic Background Radiation. Of the
remainder, many will still be with as primordial blackholes within
the darkenergy and darkmatter teelstreams.
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