This paper presents a comprehensive formulation of the Mass Curvature Rate (MCR) theory, integrating atomic-scale mass predictions, gravitational coupling, cosmological scaling, and field-theoretic structure into a single framework. The master equation � is applied to isotope mass calculations using semi-empirical binding energy corrections, generating predictive mass values across the periodic table.At the cosmological level, the MCR curvature radius and gravitational coupling are linked to the Hubble parameter, naturally reproducing the cosmic horizon scale. Numerical evaluation shows consistency between the derived �, curvature radius �, and observed large-scale cosmic parameters.An action principle formulation is proposed to incorporate MCR curvature effects into scalar field dynamics, and UV–IR scaling relations are introduced to address the hierarchy between Planck-scale and cosmological energy scales.The results demonstrate that the MCR framework provides a mathematically self-consistent structure connecting nuclear physics, gravity, and cosmology within a unified theoretical paradigm.
Myomin Aung (Thu,) studied this question.