Quantum Electric Gravity: Unravelling Big G and Potential Consequences for G-Dependent Theories

Quantum Electric Gravity (QEG) is a new theory of quantum gravity predicated on EM and QM. 
Unlike the classical Newton and Einstein’s General Relativity theories, QEG can derive gravity 
from the fundamental pillars of EM, QED and QCD, and can potentially reveal the origin and 
root cause of gravity. The experimentally verifiable QEG equation comprises QCD binding 
energy, quantum probability, and EM entities. Prior to QEG, the origin of the gravitational 
parameter Big G remained highly elusive for centuries since its inception by Sir Isaac Newton. It 
had no apparent QM connections and there were no clues as to its origin, properties or 
dependencies. QEG is completely independent of G, however, it is uniquely positioned to derive 
G a priori in terms of fundamental Quantum Electric (QE) parameters and entities, and reveal its 
true QE character and origin. QEG demonstrates the inconstancy and variability of Big G and its 
dependency on object compositions, strong gravity, and other energy couplings. While 
heretofore considered a constant of nature in classical gravity, G appears to be inconstant 
especially outside the cosy confines of the weak gravity of the solar system. This strongly 
suggests that G may not be worthy of its status as a fundamental constant of nature ranked along 
e, c, h, and α.