This paper provides a detailed conceptual and mathematical clarification of the relationship between frequency-based gravity in the Myominaung Unified Theory (MUT 3.0) and the underlying field dynamics of the MyominAung Photon-Sea Theory (MATE).Building on empirical scaling relations identified in MUT—notably the universal product involving gravitational acceleration, scalar frequency, and spatial scale—this work demonstrates how these results emerge naturally from the photon-sea framework with a zero-frequency ground state.The paper establishes a clear distinction between universal frequency (as a high-frequency quantum excitation linked to atomic structure) and effective gravitational frequency (as an ultra-low-frequency collective mode of the photon-sea vacuum). It shows that the so-called “universal g” observed phenomenologically in MUT corresponds to a field-gradient manifestation of photon-sea saturation rather than a fundamental constant.By unifying these interpretations, the paper serves as a supplementary bridge between MUT 3.0 and MATE, resolving apparent ambiguities in frequency definitions and placing earlier phenomenological successes on a consistent field-theoretic foundation. This work strengthens the internal coherence, interpretational clarity, and testability of the Photon-Sea Theory while preserving the empirical insights of MUT.