Myo Min Aung Unified Theory (MUT) v7. 4 investigates the origin of mass through the concept of the Universal Mass Curvature Rate (fMCR). While Einstein’s relation E = mc² establishes the equivalence between mass and energy, it does not explain the physical origin of mass itself. MUT v7. 4 proposes that mass emerges from spacetime resonance characterized by the relation: fMCR = c × n / mwhere c is the speed of light, n is the nucleon count, and m is the actual measured nuclear mass. Using nuclear mass data from the AME2020 database covering 2, 545 isotopes, the study shows that fMCR converges to a nearly constant value of approximately: fMCR ≈ 1. 792 × 10³5 m/ (kg·s) with small deviations (~0. 2%) corresponding to nuclear binding energy and shell effects. Within this framework, nuclear binding energy is interpreted as a geometrical resonance effect of spacetime curvature rather than an independent interaction term. The theory also introduces a connection between the Planck scale and baryonic mass. The proton mass can be expressed as a Planck-scale quantity suppressed by a factor of approximately: mₚ / MPlanck ≈ 7. 68 × 10^-20This relationship provides a possible explanation for the hierarchy between gravitational and nuclear interaction scales. The work proposes fMCR as a new fundamental constant linking spacetime geometry, nuclear structure, and Planck-scale physics. MUT v7. 4 serves as supplementary material to MUT v7. 0 and expands the conceptual framework explaining the emergence of mass from spacetime resonance.
Myomin Aung (Sat,) studied this question.