Normal velocity of photons

The Forces of Nature by Kelland Terry, Ph.D

The balance reached between the photon and a sea of graviton waves traveling in all direction results in a photon with a velocity slightly less than 3 x 10^8 m/s. In contrast an electron in orbit has a velocity of approximately 2 x 10^6 m/s, or even less in the solar wind. There are important differences between photons and electrons that likely explain the difference in their normal velocities even though both are being pushed through space by the same graviton waves.

In contrast to electrons, the two spheres of the photon eject the same string mass per unit time. This means it is always in perfect balance, which allows graviton waves to push it smoothly through space. In addition, the photon has free electons emanating from one sphere, and at the same time, it has an equal mass of free magnons emanating from the other sphere. It seems graviton waves are able to generate more force against free strings than those strings that eventually become bound as complimentary pairs. This would help explain why the normal velocity of photons is higher than the normal velocity of electrons in orbit.

Photons can be as massive as electrons or immensely smaller as in the case of a radio wave photon. Even a photon of visible light can be as much as 10^11 times more massive than a radio wave photon, yet all photons travel at the same velocity even though each makes the same number of strings during the peak of their string cycle. This suggests that an upper limit exists, which holds all photons to the same velocity. This same upper limit also exists for electrons that are forced to travel at high speeds in a particle accelerator. In my next series of blogs, I will begin a discussion of situations where the velocities of electrons and photons are modified by scientists. Till then be safe and in good health. Kelland—www.vestheory.com