Frequency shift and earth’s potential gravitational energy

The Forces of Nature by Kelland Terry, Ph.D.
Scientists have shown that the magnitude of the gravitational frequency shift is directly related to Earth’s potential gravitational energy.

Where G is the gravitational constant, ME the mass of the Earth, and r is the distance to Earth’s center.

According to VES ether theory, Earth’s potential gravitational energy at a given distance from Earth reflects the concentration of gravitons in the area. It provides a rational, physical reason why the strength of the gravitational field is correlated with the rate atoms vibrate.

The very fact that Earth’s potential gravitational energy is used to calculate the gravitational frequency shift gives strong support to the idea that gravitons interact with electons and magnons just as predicted to explain the gravitational frequency shift.

By the way, no theory of relativity is required to calculate Earth’s potential gravitational energy. Kelland—www.vestheory.com

The gravitational frequency shift: Atomic clocks slow down in strong gravitational fields

The Forces of Nature by Kelland Terry, Ph.D.

A cesium-beam atomic clock measures the exact oscillation frequency of the cesium atom, which is 9,192,631,770 cycles/second. This amounts to an accuracy of 1 second in 1,400,000 years, which makes a cesium-beam atomic clock the most sensitive device ever made for measuring time.

The oscillation frequency of an atom is determined by its string cycles. Electron string cycles and quark string cycles become synchronized because their e-electons and p-electons bond as they go through their individual cycles. This forces them into synchrony.

It has been shown that a cesium clock slows down when placed in a stronger gravitational field. This is referred to as the gravitational frequency shift. Clocks here on Earth run slower at lower altitudes where the gravitational force is greater. Even a clock placed at the bottom of a skyscraper runs slower than a clock at the top of the skyscraper. Physicists have shown that clocks in the Northern Hemisphere during the winter, when closer to the Sun, run slower than clocks at the same location during the summer. Atomic clocks aboard satellites must be corrected for the gravitational frequency shift; otherwise, the lower density of gravitons in outer space would cause the clocks to run faster. The correction is only one part in 10^14.

According to VES ether theory, a greater concentration of gravitons will slow down string retraction and increase the length of string cycles. The net result is an atom whose electron string cycles and quark string cycles are in synchrony but at a lower frequency. The clock will have a slower oscillation frequency and tick fewer times per second. This completely explains the effect of the gravitational force on cesium-beam clocks. It provides strong evidence that gravitons influence string cycle rates.

It can be shown mathematically that the gravitational frequency shift is directly correlated with the concentration of gravitons in the area. I will continue with this discussion in my next blog. Kelland—www.vestheory.com

Gravitons influence string cycles

The Forces of Nature by Kelland Terry, Ph.D.

There are several important observations that show gravitational fields affect photons, atomic clocks, and radioactive particles. I will briefly summarize these observations here; then take them up in more detail in future blogs.

Gravitational red shift: Photons received here on Earth from dense stars with high gravitational fields have lower oscillation frequencies than expected. Physicists refer to this as a gravitation red shift because red is the lowest frequency of visible light.

Gravitational frequency shift: Physicists have shown that cesium atomic clocks tick slower in stronger gravitational fields; thus the oscillation frequency of the atom slows down. Physicists refer to this red shift as a gravitational frequency shift.

Radioactive particle emission: Physicists have shown that radioactive particles emit less radiation in stronger gravitational fields. This can be accounted for if the string cycle frequency is lower.

Photons traveling through a strong gravitational field have lower oscillation frequency, which is another form of gravitational frequency shift; although here, we must take into account the movement of the photon.

These observations prove dramatically that gravitons influence the creation of photons and modify their oscillation frequency. These experiments also prove that gravitons affect the emission of radioactive particles and the rate cesium atomic clocks tick per second. These observations can all be accounted for if gravitons influence the string cycles of electrons, photons, and quarks. Just how this is accomplished is taken up in future blogs. Till then be safe and in good health. Kelland—www.vestheory.com