Freitag, 29. Juli 2016

The Schwarzschild Proton

The Schwarzschild Proton
Nassim Haramein
The Resonance Project Foundation
P.O. Box 764, Holualoa, HI 96725, (808) 325-0070
Abstract. We review our model of a proton that obeys the Schwarzschild condition. We find that only a very small -39percentage (~10 %) of the vacuum fluctuations available within a proton volume need be cohered and converted to mass-energy in order for the proton to meet the Schwarzschild condition. This proportion is equivalent to that between gravitation and the strong force where gravitation is thought to be ~10-38 to 10-40 weaker than the strong force. Gravitational attraction between two contiguous Schwarzschild protons can accommodate both nucleon and quark confinement. We calculate that two contiguous Schwarzschild protons would rotate at c and have a period of 10-23s and a frequency of 1022 Hz which is characteristic of the strong force interaction time and a close approximation of the gamma emission typically associated with nuclear decay. We include a scaling law and find that the Schwarzschild proton data point lies near the least squares trend line for organized matter. Using a semi-classical model, we find that a proton charge orbiting at a proton radius at c generates a good approximation to the measured anomalous magnetic moment.