THE MALTA COSMOLOGY TEMPLATE

Chapter 7 - Electrons

PARTS

Part 3 - Cosmic Electrons (cont)

ARGUMENT 0712

• ARGUMENT 0711: The differentially increasing mass and energy of a blackholepair renders its constituent blackholes permanently understable.

• The increasing mass and energy of the blackholepair increases the mass and energy of its constituent blackholes.
• The increasing mass of the constituent blackholes equates to increased mutual gravitypull and draws them toward each other.
• The increasing energy of the constituent blackholes equates to denser and more extensive teelospheres which resist their being drawn toward each other.
• The two opposing effects constitute a multiprocess in which the attraction of their mutual gravitypull is countered by the repulsion of their teelospheres.
• This multiprocess is the strong force.

• The understable blackholes in a blackholepair are attracted to each other by their mutual gravitypull and repelled by their dense and extensive teelospheres. This is the “strong force” in action.

• strong force: (also known as the “strong interaction). (1) The interaction responsible for binding quarks, antiquarks, and gluons to make hadrons. Residual strong interactions provide the nuclear binding force (Particle Adventure). (2) The force that binds two blackholes (quarks) together within an electron and three blackholes (quarks) together within a nucleon. The strong force is a multiprocess in which the mutual gravitational attraction of the quarks is countered by the rejectivity of their teelospheres.