A sea of graviton waves is composed of a vast number of waves traveling in all directions; however, only those waves traveling directly with or directly opposed to the orientation of the photon’s strings have an appreciable effect on the photon’s velocity or its string cycle rate.
Electons and magnons are ejected from photons at right angles to their direction of flight and at right angles to each other. Initially, the interaction of graviton waves going with and against the photon’s string waves mainly affect string cycles, not velocity, because the photon’s strings are not in alignment with the photon’s flight path.
Not pictured are photon string waves ejected at 90 degrees angle to the flight of the photon and 90 degrees angle to the string shown, but the situation is the same.
As the photon continues through a maze of strings in their path, the electons and magnons are swept to the rear. This allows complementary strings to meet and bond. Thus, soon after the ejection of a virtual particle a portion of the photon’s strings are directed to the rear.
At this point in time, graviton waves are influencing the velocity of the particle and its string cycle.
Because the string cycle of the electron is so short, it seems likely that during the final stage of the cycle the length of the string oriented directly to the rear must be very short. Even so this phase of the cycle might contribute the most to the velocity of the photon or electron because now all the graviton waves are directly in line with the photon’s flight path.
Graviton waves have to interact with strings that eventual bond or have bonded as complementary strings; otherwise, they would not be able to contribute to the electron’s velocity in orbit because the only free strings, the e-electons, become bound to p-electons emanating from the proton.
What is said here about the interaction of photon string waves and graviton string waves applies equally well with the interaction between graviton waves and electron string waves. However, there are differences between the two particles as discussed in future blogs.
In my next blog, I will examine what we can expect when dealing with a substance with perfect elasticity. Till then be safe and in good health. Kelland—www.vestheory.com
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