THE MALTA COSMOLOGY TEMPLATE

Chapter 7 - Electrons

PARTS

Part 3 - Cosmic Electrons (cont)

ARGUMENT 0716

• ARGUMENT O715: The chaotic structure of a blackholepair is brought to order by the constituent blackholes becoming quarks, one axial and the other centrifugal.

• The blackholepair is overstable and can thus absorb teels through its gravitysheath interface if any are available.
• The quarks are understable and thus continuously ejecting teels across their gravitysheath interfaces into the teelosphere of the blackholepair.
• Thus the continuing overstability of the blackholepair teelosphere continues to engorge the quarks.
• However, the now less chaotic structure allows a multiprocess to stabilise the blackholepair thus:

• Axial quarks are more efficient at absorbing and ejecting teels than centrifugal quarks because:

• the low-level/high-speed axial teelstream runs directly from one pole to the other
• the low-level/high-speed centrifugal teelstream runs from each pole to the equator where they collide and thus negotiate a 90 degree turn to flow outward.

• Comparison with gas turbine engines is apt: a centrifugal gas turbine is simpler but less efficient, especially when dealing with high speed gas throughput: an axial gas turbine is substantially more complex but very much more efficient, and can deal satisfactorily with very high speed gas throughput.

• The greater efficiency of the axial quark means that teels pass “through” it faster than they pass through the centrifugal quark.
• This “starves” the axial quark leading to mass loss.
• The starving of the axial quark leads to an engorging of the teelosphere of the blackholepair which together with the absorbing of additional teels across its gravitysheath interface leads to an increase in the blackholepair's mass.

• The decrease in the mass of the axial quark and the increase in the mass of the blackholepair continue in tandem until the blackholepair stabilises.
• At the this point the blackholepair becomes an electron.

• 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.

• electron: (1) An elementary particle that is a fundamental constituent of matter, having a negative charge of 1.602 x 10^-19 coulombs, a mass of 9.108 x 10^-31 kilograms, and a spin of ½, and existing independently or as the component outside the nucleus of an atom. (Dictionary.com) (2) A stable, axially structured, particle consisting of one axially structured quark and one centrifugally structured quark.