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Part 7 - Selfproof (cont) | SELFPROOF 0701 - ELECTRONS
CURRENT COSMOLOGY MODEL
The
electron is a subatomic particle with a negative elementary electric
charge. Electrons belong to the first generation of the lepton particle
family, and are generally thought to be elementary particles because
they have no known components or substructure. The electron has a mass
that is approximately 1/1836 that of a proton. Quantum mechanical
properties of the electron include an intrinsic angular momentum (spin)
of a half-integer value in units of ħ,
which means that it is a fermion. Being fermions, no two electrons can
occupy the same quantum state, in accordance with the Pauli exclusion
principle. Like all matter, electrons, electrons have properties of
both particles and waves, and so can collide with other particles and
can be diffracted like light. The wave properties of electrons is
easier to observe experiments than that of other particles like
neutrons and protons because electrons have a lower mass and hence a
higher De Broglie wavelength for typical energies. (Wikipedia 22 Nov 2012)
A stable elementary particle in the lepton family having a mass at rest of 9.107 × 10 -28 grams and an electric charge of approximately -1.602 × 10 -19
coulombs. Electrons orbit about the positively charged nuclei of atoms
in in distinct orbitals of different energy levels, called shells.
Electrons are the primary charge carriers in electric current.
(American Heritage Science Dictionary)
In particle physics, a
fermion is any particle characterised by Fermi-Dirac statistics and
obeying the Pauli exclusions principle. Fermions include all quarks and
leptons, as well as any composite particle made of an odd number of
these, such as all baryons and many atoms and nuclei. (Wikipedia 22 Nov
2014)
MALTA COSMOLOGY TEMPLATE
- ASSUMPTION 0101:
Each type of elementary fermion is made out of a different
combination of numbers of the fundamental particle: the teel.
- ASSUMPTION 0102: The principal properties of the teel are mass, spin, and rejectivity.
- CONCLUSION 0312: A blackhole consists of a minimum of three teels matrixed to each other as three stable/overstable teelpairs.
- CONCLUSION 0506:
The default flow pattern for a blackhole teelosphere is
centrifugal with low level teels streaming toward the equator and high
level teels streaming toward the poles.
- CONCLUSION 0507:
In a centrifugal blackhole, the principal point for the ejection
of teels across the gravitysheath interface is the teelospheric equator.
- CONCLUSION 0512:
When the speed and density of a teelstream is even more dominant,
if forces the teelospheric equator away from the teelospheric northpole
toward the teelospheric southpole to make the blackhole semiaxial.
- CONCLUSION 0513:
When the speed and density of a teelstream is even more dominant,
it forces the teelospheric equator to the teelospheric southpole and
makes the blackhole axial.
- ASSUMPTION 0702: An electron consists of two gravitationally bound blackholes.
- CONCLUSION 0714:
The structure of an unstabilised blackholepair is chaotic because
its constituent blackholes are both centrifugally structured and
therefore must tumble about each other in constant disorder.
- CONCLUSION 0715:
The chaotic structure of a blackhole pair is brought to order by
the constituent blackholes becoming quarks, one axial and the other
centrifugal.
- CONCLUSION 0716:
In a multiprocess, the mass of the understable axial quark
decreases and the mass of the overstable blackholepair increases until
the blackholepair stabilises and becomes a stable electron.
COMMENTARY
The
Current Model view of the electron is resolutely
devolutionary. The whole history of the proposing of electrons, their
subsequent discovery, and the compilation of the detailed description
has been firmly rooted in the "here and now" of the researchers. This
is most clearly seen in the common view of the electron as a "dot"
that might be real or representational - with the dot being the
weak force which is surrounded by a "cloud" of electric charge.
The problem, of course, is that the electron is so insubstantial that
it is currently invisible to any equipment we have devised. Thus we are
aware of its effects but we don't know how those effects are triggered.
And there is no devolutionary evidence to suggest that the electron is
anything other than a dot and a cloud.
The Malta
Template view of the electron is resolutely evolutionary.
The pathway from the teel, an object with just three properties,
to the electron, an object with a comparatively wide range of
properties, is clear and logical. Along that pathway there are a few
assumptions (very few actually - just 20 from 157 arguments) but mostly
it consists of selfevident conclusions that build up into a
hypothetical electron which behaves exactly as do the electrons in our
observations and experiments.
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