SELFPROOF 0301
- BLACKHOLE
CURRENT COSMOLOGY MODEL
A
blackhole is a region of spacetime from which nothing, not even
light, can escape. The theory of general relativity predicts that a
sufficiently compact mass will deform spacetime to form a blackhole.
Around a blackhole there is a mathematically defined surface called
an event horizon that marks the point of no return. It is called
'black' because it absorbs all the light that hits the horizon,
reflecting nothing, just like a perfect black body in thermodynamics.
Quantum mechanics predicts that blackholes emit radiation like a
blackbody with finite temperature. This temperature is inversely
proportional to the mass of the blackhole, making it difficult to
observe this radiation for blackholes of stellar mass or greater.
(Wikipedia 19 Mar 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)
COMMENTARY
The
above pair of descriptions may seem to be markedly at odds but in
practice, while their words paint very different textures, the object
they are describing is much the same. Each describes an
object in which the combined gravitypull of its
contents is strong enough to stop the contents escaping.
Which
is not to say there are no differences. The principal difference
is in the incorporation of the spacetime
concept into the Current Cosmology Model. In the Malta Cosmology
Template, space and time are separate measures that do not form a
continuum.
It is worth pointing out that
incorporating the spacetime concept into the blackhole idea is a
relatively recent happening. The idea of a gravitational sink so strong
that light cannot escape from it actually predated General Relativity
by at least one hundred years (John Mitchell, 1783).
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