Potential Origins of a Quantitative Equivalence Between Gravity and Light

ABSTRACT

Quantitative estimates indicate that the energy equivalence over the universe's length from gravitational forces between the rest mass of all photons each separated by Planck's length is a quantum of energy within the frequency band of visible light. The convergence of values between dynamic pressure within the universe and the density of photons within a cross-section of unit space with a thickness that reflects the visible wavelengths as well as the shared metric of 10¹⁰⁴ m⁴ kg^-2 for transformation of G to dynamic pressure and the number of photon equivalents within the universal mass (1052 kg divided by10^-52 kg per rest photon) support this inference. Both Planck’s constant and the precession frequency of neutral hydrogen are potentially derivable from the intrinsic assumptions. These results suggest the relationship between gravity and electromagnetic quantum may be a quantitative solution rather than a qualitative derivation and may facilitate understanding of the particle-wave properties of light.

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