Part 4 - Selfproof

To safeguard the credibility of the Malta Cosmology Template, the Current Cosmology Model descriptions used here are lifted from other publications. In each case the source is credited. Some of the material has been amended for terminological consistency, or edited for relevance, but the meaning is unchanged. In the event that anyone disputes the accuracy or rigour of the material used, please feel free to suggest something better.

C0501 - DARKMATTER

CURRENT COSMOLOGY MODEL

Darkmatter is a currently unknown type of matter hypothesized to account for a large part of the total mass in the universe. Dark matter neither emits nor absorbs light or other electromagnetic radiation, and so cannot be directly seen with telescopes. Dark matter is estimated to constitute 83% of the matter in the universe and 23% of the mass-energy. (Wikipedia 05 Apr 2012)

MALTA COSMOLOGY TEMPLATE

The Current Cosmology Model and the Malta Cosmology Template agree that a high proportion of the mass of the Universe cannot be directly seen with telescopes.
In the Current Cosmology Model, the nature of that invisible mass is unknown.
In the Malta Cosmology Template, darkmatter is the teelospheres that surround every blackhole beyond a certain mass.
Whether the teelospheres equate to 83% of the Universe's matter and 23% of its mass-energy needs confirming.

CURRENT COSMOLOGY MODEL

The existence of darkmatter is inferred from gravitational effects on visible matter and gravitational lensing of background radiation, and was originally hypothesized to account for discrepancies between calculations of the mass of galaxies, clusters of galaxies and the entire universe made through dynamical and general relativistic means, and calculations based on the mass of the visible "luminous" matter these objects contain: stars and the gas and dust of the interstellar and intergalactic medium. The most widely accepted explanation for these phenomena is that dark matter exists and that it is most likely composed of heavy particles that interact only through gravity and possibly the weak force; however, alternate explanations have been proposed, and there is not yet sufficient experimental evidence to determine which is correct. Many experiments to detect proposed dark matter particles through non-gravitational means are underway. (Wikipedia 05 Apr 2012)

MALTA COSMOLOGY TEMPLATE

A galaxy is a blackhole: that is, a galaxy consists of a teelcore (or in some cases, teelcores) and a teelosphere. Galaxies as such are invisible through telescopes from Planet Earth. That many are visible is due to the quark and atom composites that enshroud many of their teelcores (see Chapters Nine (Atoms), Ten (Atom Mechanics), Eleven (Stars), Twelve (Galaxies), and Thirteen (Galaxy Mechanics).
An understable galaxy is ejecting mass and energy across its gravitysheath interface, as teels, photons, and in extreme cases, even more massive particles. The teelosphere of such a galaxy fills its gravitysheath and extends beyond it. It also extends beyond any shroud of quark and atom composites that surrounds the teelcore, exerting a gravitypull that influences the shroud's behaviour.
A stable galaxy ejects just enough mass and energy across its gravitysheath interface to counter any mass and energy being absorbed. The teelosphere of such a galaxy extends to the gravitysheath interface above the equator but may be much less extensive over the poles. Ordinarily such a galaxy is only dimly visible to us although it can become much brighter if it absorbs matter from another object.
An overstable galaxy can absorb mass and energy without ejecting any. The extent of an overstable galaxy's teelosphere depends on its ratio of vergence velocity to escape velocity. If the vergence velocity is high the teelosphere may extend almost out to the gravitysheath interface. It if is low, the teelosphere can be held, tight and dense, close to the teelcore.

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