SELFPROOF 0201 - THE BIG BANG STANDARD MODEL
CURRENT COSMOLOGY MODEL
The
Big Bang theory is the prevailing cosmological model that explains
the early development of the Universe. According to the Big Bang
theory, the Universe was once in an extremely hot and dense state
which expanded rapidly. This rapid expansion caused the Universe to
cool and resulted in its present continuously expanding state.
According to the most recent measurements and observations, the Big
Bang occurred approximately 13.75 billion years ago, which is thus
considered the age of the Universe. After its initial expansion from
a singularity, the Universe cooled sufficiently to allow energy to be
converted into various subatomic particles, including protons,
neutrons, and electrons. (Wikipedia 27 Mar 2012)
Timeline:
- Moment Zero/The Big Bang/t=0 - the start of everything.
- Moment Zero plus 10-43 of a second - the Planck Era, the earliest known meaningful time.
- Moment Zero plus 10-35 of a second - strong force becomes distinct, leptons and baryons created, cosmic inflation creates a quark-gluon plasma.
- Moment Zero plus 10-11 of a second - electromagnetic and weak force become distinct.
- Moment Zero plus 10-5 of a second - protons and neutrons form from quarks.
- Moment Zero plus 1 second - nucleosynthesis produces light nuclides.
- Moment Zero plus 380,000 years - photons cease to scatter.
- Moment Zero plus 1 million years - atoms and electrons form the first stars and galaxies.
MALTA COSMOLOGY TEMPLATE
- The
Universe had a Moment Zero which was when its current expansion began. (see Argument 0201)
- The
diameter of the whole Universe at Moment Zero is (notionally) one billion lightyears. (see Argument 215)
- The Universe at Moment Zero consists of teels drawn together to the limits of their rejectivity. (see Argument 0203)
- At Moment Zero, the Universe's energy is 100% kineticenergy. (see Argument 0216)
- At Moment Zero, because the Universe is 100% dense and its energy is 100% kineticenergy, it must expand. (see Argument 0217)
- The Universe at Moment Zero plus 10-43
of a second has a high teel density, a high measure of
kineticenergy, a low measure of potentialenergy, and a high
temperature (spinspeed).
- The
Universe at Moment Zero plus 10-43
of a second is rapidly expanding, although the rate of that
expansion is decreasing.
- The
Universe at Moment Zero plus 10-43
of a second is rapidly cooling.
- As the Universe expands, numbers of teels accrete to form cosmic blackholes. (see Chapter 3 - Blackholes)
- As the Universe expands, some cosmic blackholes stabilise as cosmic photons. (see Chapter 6 - Photons)
- As the Universe expands, some pairs of cosmic blackholes stabilise as cosmic electrons. (see Chapter 7 - Electrons)
- As the Universe expands, some trios of cosmic blackholes stabilise as nucleons (see Chapter 8 - Nucleons)
COMMENTARY
There
are major differences between the descriptions of the early Universe
given in the Current Cosmology Model and the Malta Cosmology Template.
The differences stem from the very different ways that each has been
compiled.
- The
Big Bang Standard Model is a devolutionary model, deduced by
extrapolating backwards in time and downward in size from the confirmed
facts.
- The
Malta Cosmology Template is an evolutionary model, kickstarted from the
most fundamental of established facts to move forward in time and
upward in size.
The Bedrock Templature methodology used
to compile the Malta Cosmology Template is a Management Consultancy
technique which strongly counsels against straying far from
the established facts. The reasoning behind this is well-illustrated by
the "fact/assumption table" in which the chances of a successful
outcome are calculated by how far away an assumption is from a
fact, thus:
- First generation assumption (that is: an
assumption extrapolated out of fact): such an assumption is
either right or wrong (with partly right counting as wrong) and
thus has a 50% chance of being right.
- Second generation
assumption (that is: an assumption extrapolated out of an
assumption that is extrapolated out of fact) has a 50% chance of being
based on a correct assumption and thus has a 25% chance of
being right.
- Third generation assumption has a 25% chance of
being based on a correct assumption and thus has a 12.5% chance of
being right.
- Fourth generation assumption has a 12.5% chance of
being based on a correct assumption and thus has a 6.25% chance of
being right.
- And so on.
The table is crude but
it tells a blindingly obvious truth: that the farther a
conjecture strays from the facts, the less likely it is to be
right.
The Big Bang Standard Model, by the the time it
reaches the earliest moments of the Universe, has become divorced from
any confirmed facts by a considerable divide. This has not, however,
constrained researchers from extrapolating yet farther back in time and
down in size in a "scattergun approach" whereby ideas are fired
off in all directions in the hope that one might hit
something.
In contrast, the Malta Cosmology Template
doesn't really conjecture at all. Assumptions are allowed by
the Bedrock Templature methodology but they
must be first generation assumptions and they can only be
used as kickstarters. Even more importantly, every assumption
must selfprove by evolving into an already established fact. Of
the 153 arguments in the first 7 chapters of the Template, only 18
result in assumptions.
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