MUT v6.9: Mass Curvature Rate (MCR) Theory: Full Analysis

Section 6.9 presents a consolidated consistency analysis of the Mass Curvature Rate (MCR) framework across microscopic, gravitational, and cosmological regimes. The objective is to verify internal coherence of the master equation, gravitational coupling formulation, curvature radius definition, and cosmological scaling relations within a unified parameter structure.Dimensional consistency of the fundamental constants and derived quantities is examined to ensure that the curvature-based mass definition remains stable under scale transformation. The behavior of the effective gravitational coupling and curvature radius is evaluated across atomic and cosmic mass ranges, confirming that no additional fine-tuning parameters are required for scale transition.The section further assesses parameter stability under variations of the curvature-rate constant and investigates whether derived quantities preserve proportional scaling between ultraviolet (microscopic) and infrared (cosmic) domains. Numerical consistency with Hubble-scale observables is reaffirmed within the established framework.Overall, Section 6.9 functions as a structural validation layer of the MCR theory, reinforcing its mathematical coherence, dimensional rigor, and cross-scale applicability without introducing new postulates.