Wednesday, October 12, 2011

Electron's oscillation cycle is created by its string cycle

And now for the end of the civet cat story. It was Christmas Eve and our little family was enjoying some hot apple cider when suddenly we found the troop of civet cats had joined our party. For a moment or two they seemed completely tame as they darted between our legs without raising a stink. Perhaps they would have stayed around if we had taken off our shoes and socks, but as it was, they suddenly scampered into the bathroom that Dad built. There they disappeared completely. It was a little spooky until we decided that they had left the bathroom through the bathtub’s overflow drain hole that Dad had never connected to a pipe, even though given their size it seemed impossible. We plugged the hole up and that was the end of this little story. They could no longer come and go as virtual particles.

Because virtual elastic strings are constantly being created and retracted, it means the electron must have a string cycle. There must be a period when strings are being ejected into space and a point in time when they have retracted back to their source. Thus the magnetic field and electric field must vary as the electron goes through its string cycle. This is exactly what scientists have shown. The string cycle for an electron is identical to its oscillation cycle. I believe in most cases, the variation in the magnetic field is used to establish the oscillation period.

VES theory shows us that the electron’s oscillation cycle is dictated by the length of time it takes to make and retract its elastic strings. Thus the oscillation cycle and elastic string cycle are identical for an electron. Kelland—www.vestheory.com

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