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 long-range bi-directional EM–QED force, mediated by force-carrier messenger particles between charge entities, give rise to continuous QM quark vibrations. The QCD gluon force imposes asymmetrical restrictions on these vibrations leading to a net energychange that can account for the force of gravity due to energy conservation. To date, most theories of quantum gravity like string theory, loop quantum gravity and others are not amenable to direct experimental verifications, largely due to their high level of abstractions that lacks significant connection to fundamental physics. In contrast, QEG is fundamentally different in many respects, including the following. First, it is theoretically derived from the fundamental pillars of QM, leading up to the complete QEG equation comprising QCD binding energy, QED quantum probability, and EM parameters and entities. Second, the QEG equation and parameters are experimentally verifiable and testable by well-established laboratory experiments. This leads to the interesting outcome that appears to support and corroborate QEG with a relatively highlevel of confidence.