The Forces of Nature by Kelland Terry, Ph.D.
We saw in the previous blog that the electron’s n-magnons bond to the electron’s s-magnons, and then retract against the surface of the electron. As they retract, they create great internal pressure inside the electron’s two spheres. The strings that make up the electric fields contribute in a similar way.
The electron makes e-electons that give the electron its negative charge and allows it to bond to the p-electons emanating from the proton. Recently, scientists have also shown there are virtual particles surrounding the electron that are composed of both negative and positive particles bonded together. I believe the electron is making an excess number of e-electons that bond to the p-electons that also arise from the electron.
It may well be that the electron makes 2 units of e-electons and one unit of p-electons, and that one sphere of the electron creates e-electons and the other sphere p-electons, just as one sphere makes n-magnons and the other sphere makes s-magnons. It follows that one unit of e-electons becomes bound to the one unit of p-electons leaving one unit of free e-electons or one unit of charge. This unit bonds with the p-electons emanating from the proton (actually from the quarks inside the proton).
When the electron’s e-electons emanating from one sphere come in contact with an equal number of p-electons emanating from the other sphere, they bond and retract. There must be billions of these strings that bond and cover the electron like an orange peal as they retract back inside the electron. This causes great internal pressure inside the two spheres of the electron. Gravitons also have a key role to play as discussed in the next blog. Kelland—www.vestheory.com
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