Empirical Validations of Myo Min Aung Unified Theory (MUT v7.27): 100 Postdiction Tests Across Nuclear, Galactic, and Cosmological Scales

This technical report provides a comprehensive empirical evaluation of the Myo Min Aung Unified Theory (MUT) v7. 27 through 100 systematic postdiction tests. The theory operates on a minimalist framework, utilizing only two fundamental parameters: the proton-based constant f₌₂ₑ and a single galactic length scale = 7. 1\, kpc derived from SPARC rotation curves. The report documents the theory’s performance across seven distinct physical domains: Nuclear Physics: Precise reproduction of atomic masses (from ¹H to ^238U) and identification of magic number stability. Atomic Constants: Consistency with the Rydberg constant, Bohr radius, and fine-structure constant. Stellar Structure: Accurate postdiction of solar fusion efficiency, central temperature, and stellar luminosity-mass relations (L M^3. 5). Galactic Dynamics: Successful fits for galactic rotation curves across a wide range of SPARC galaxies without invoking dark matter. Cosmology: Derivation of ₘ, b, nₛ, and CMB acoustic peak positions. Big Bang Nucleosynthesis (BBN): Prediction of primordial abundances (He, D, ³He), while identifying the "Lithium Problem" as a remaining challenge. Quantum Gravity: Addressing black hole singularity resolution and the information paradox. The results show an 87% success rate (87 out of 100 tests) in matching observational data within uncertainties. Discrepancies regarding the Hubble tension and S₈ parameter are transparently reported, providing a clear roadmap for future theoretical refinements. This document serves as a rigorous benchmark for the predictive power of the MUT framework.