This theory explores the intricate relationship between gravity and quantum mechanics, based on a physical-mathematical theory of gravity developed to elucidate phenomena that may not conform to conventional physics interpretations. The theory posits that gravity and mass originate from a stationary four-dimensional electrostatic energy field, where fragments of energy at Planck length scales electrostatically interact and couple to this field. Due to this coupling at the most fundamental scales, this 4-dimensional field is not directly observable. Further, the mechanics of this coupling mechanism are elucidated and pertinent equation relations are presented. In this context, gravity is not associated with quantum probability or the Born Rule, as gravitational mechanics operate at the deepest fundamental level. The theory assumes that randomness is not an inherent aspect of reality. Consequently, the concept of fictitious forces is also explored, as these forces are regarded as genuine manifestations of gravity. The theory suggests that the gravitational constant is rooted in parameters of this 4-dimensinal field interactions, contingent upon the velocities of quantum particle constituents relative to a gravitational source field gradient. Consequently, the gravitational constant would be dependent upon the composition of matter. However, this variability does not necessarily contradict the equivalence principle. For further details, refer to the Paper tab in the upper left corner.

Summary of The Continuum Theory of Quantum Gravity