THE MALTA COSMOLOGY TEMPLATE

Chapter 3 - Blackholes

PARTS

Part 8 - Selfproof (cont)

SELFPROOF 0307 - ELECTRON

• An electron is a composite object consisting of two small blackholes (quarks), each bound to the other by their mutual gravitypull and kept apart by the rejectivity of their teelospheres. (See Chapter Seven - Electrons) 
• For an electron to be stable, its blackholes must each have a different structure, one being axial and the other being centrifugal.  (See Chapter Five - Darkmatter) 
• Electrons are produced by atoms during stabilisation. Those that don't escape from the producing atom, remain to affect the atom's charge. (See Chapter Nine - Atoms and Chapter Ten - Atom Mechanics)  Mechanics).

• In the Current Cosmology Model the electron is a fundamental/elementary particle.
• In the Malta Cosmology Template the electron is a composite object consisting of a pair of blackholes (quarks).

• 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') 

• 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')