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Part 7 - Selfproof (cont) |
SELFPROOF 0107
- ELECTRIC CHARGE
CURRENT COSMOLOGY MODEL
Electric
charge is a physical property of matter that causes it to experience
a force when near other electrically charged matter. Electric charge
comes in two types, called positive and negative. Two positively
charged substances, or objects, experience a mutual repulsive force,
as do two negatively charged objects. Positively charged objects and
negatively charged objects experience an attractive force. (Wikipedia
09 Mar 2012)
MALTA COSMOLOGY TEMPLATE
COMMENTARY
In the Current Model, electric charge is known of but not
understood. It's effects are thoroughly charted and fully predictable but what "causes" it is unknown.
In the
Malta Template, given that it is not a property of
teels, electric charge is not dealt with in this chapter. Full
descriptions of the mechanics of electric charge are found in Chapter 7 (Electrons) and Chapter 8 (Nucleons). Here, however, is a brief resume:
- Charge is a consequence of the orientation of the teelospheres of blackholes.
- Teelospheres with a pole to equator orientation result in centrifugal blackholes.
- Teelospheres with a pole to pole orientation result in axial blackholes.
- The default orientation of all blackholes is centrifugal.
- Axial blackholes can only persist in particles composed of multiple blackholes.
- The
nature and strength of a particle's charge depends on the number
and position of its axial blackholes compared to its
centrifugal blackholes.
- Centrifugal and axial blackholes are described in detail in Chapter 5 (Darkmatter).
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GLOSSARY
- AXIAL BLACKHOLE: The
teelosphere of an axial blackhole responds to the spin of the
blackhole's teelcore, and to the influence of the teelstream through
which the blackhole is moving, by rising at the southpole, moving to
the northpole at high level, sinking at the north, proceeding to the
southpole at low level, and so on. (see also 'centrifugal blackhole')
- BLACKHOLE: (1) A
blackhole is a gravitationally bound accretion of teelpairs. (2)
Blackholes may be overstable, stable, or understable. (3) A
blackhole has an axial or a centrifugal structure. The least massive
blackhole consists of three teels configured as three teelpairs. As
long as stability is maintained, there is no upper limit to the mass
of a blackhole.
- CENTRIFUGAL BLACKHOLE: The teelosphere of a centrifugal blackhole responds to the
spin of the blackhole's teelcore by rising at the equator, moving to
the poles at high level, sinking at the poles, and returning to the
equator at low level. (see also 'axial blackhole')
- TEELOSPHERE: The
stratum of gasbonded teelpairs that may surround the
teelcore/teelocean of a blackhole.
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