SELFPROOF 0309 - GALAXY
CURRENT COSMOLOGY MODEL
Any
of numerous largescale collections of stars, gas, and dust that make
up the visible universe. Galaxies are held together by the
gravitational attraction of the material contained within them, and
most are organised around a galactic nucleus into elliptical or
spiral shapes, with a small percentage of galaxies classed as
irregular in shape. A galaxy may range in diameter from some hundreds
of lightyears for the smallest dwarfs to hundreds of thousands of
lightyears for the largest ellipticals, and may contain from a few
million to several trillion stars. Many galaxies are grouped into
clusters, with the clusters themselves often grouped into larger
superclusters. (American Heritage Science Dictionary)
MALTA COSMOLOGY TEMPLATE
COMMENTARY
The
Current Cosmology Model is rooted in a devolutionary perception of the
Universe, as seen from Planet Earth at the present time. With the
evolutionary description of the Universe that is the Malta Cosmology
Template, galaxies are perceived differently.
- What is not a galaxy? A
gathering of stars and lesser objects, held together by their mutual
gravitypull is not a galaxy. It is a protogalaxy, an object which
through the gaining of mass and/or the shedding of energy may become a
a galaxy.
- What is a galaxy? A
galaxy is a blackhole, structured exactly as described in Chapter
Three. It is a teelcore surrounded (perhaps) by a
teelocean surrounded (perhaps) by a teelosphere surrounded by a
gravitysheath interface.
- In
practice, the
difference between a galaxy and any other blackhole is merely a matter
of size with there currently being no specific mass measures that
define one blackhole as a galaxy and another as not. In the current
perception, a galaxy is an "island universe", a conglomeration of
gravitationally bound stars, etc, but in truth this is a false
perception. There is actually no reason why a galaxy should
have any stars at all. The galaxies we can see all do have
stars but there is nothing in the laws of physics dictating that
they have to.
- Galactic blackholes are either overstable, stable, or understable.
- The
galaxies we are able to see easily and
directly are understable blackholes, from which photons are
able to escape across the blackhole's gravitysheath interface.
Photons can “leak” from
stable and overstable galaxies but in quantities that are relatively
small. If
any such galaxies are visible to us, they will be dim.
- Our
ability to “see” galaxies is due to the photons emitted by the
composite objects bound into the blackhole's teelosphere: planets,
stars, gas clouds, star clusters and so on. These are created,
evolve, and die according to simple mechanical rules.
The form of these objects is unimportant to the evolution of the blackhole teelcore,
other than as a means of shedding mass and energy and thus enabling
the teelcore to move towards stability. The ultimate role of the
composite objects is to serve as teel fuel to be “energy filtered”
by the teelcore.
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