Gravity is traditionally described as one of the four fundamental forces of nature, distinct from electromagnetism, the strong nuclear force, and the weak nuclear force. However, persistent challenges in unifying gravity with quantum mechanics suggest that gravity may not be fundamental in the same sense as the other interactions. This paper proposes an alternative conceptual framework in which gravity emerges as a macroscopic manifestation of complex interactions among electromagnetic forces, nuclear forces, and dark energy at the quantum level. By examining the roles of each interaction—electromagnetic motion, nuclear binding and decay, and dark energy’s stabilizing influence—we argue that gravity may arise from the cumulative entropic and energetic exchanges within quantum systems. This perspective reframes gravity as an emergent, collective phenomenon rather than an intrinsic force, offering potential insights into the unification problem and the deeper structure of spacetime.
Jeorge Kevin Po - (Wed,) studied this question.