At 9:05 AM 11/10/4, Jones Beene wrote: >At any rate, consider the antigravity electron WRT either >the positron or the (*e-) particle. Is the positron also >antigravity? And if not, what is the interaction of gravity >with (*e-) ?
Food for thought: if *either* electrons or positrons (but not both) contained a negative or even only a net neutral gravitational charge then black holes of suffcient mass would spew them forth in enormous quantities. Regardless of the energy (inertia) of any particle having a negative gravitational charge, assuming every particle has an anti-particle that can be formed via vacuum fluctuations, a sufficiently massive black hole can continuously eject such particles at the rate at which they spontaneously form via vacuum fluctuations within some critical radius of the sigularity. Such an activity, if it involved only one species of particle, i.e. electrons and positrons, would quickly be curtailed as a net charge develops on the black hole sufficient to counteract the gravitational repulsion. Black holes of a given but greater than minimum size then should all electrostatically repel each other. Regards, Horace Heffner
