Title: Unifying Quantum Mechanics and Gravity via the Inverse Einstein Protocol Description / Abstract This formal disputatio provides a deductive unification of quantum mechanics and general relativity by shifting the cosmological paradigm from inductive field-mapping to a forensic mechanical framework. By inverting Einstein’s mass-energy equivalence to m = E/c², this paper identifies the constant c² as a Universal Deceleration Filter—a resistive membrane that precipitates non-local, pure energy (potential state) into discrete, localized mass. Key Theoretical Resolutions: The EM Womb: Identifies electromagnetic fields (the 99. 99% substrate) as the holding medium for localization, regulating the growth of the universe as a singular organism. Emergent Gravity: Proposes that gravity is not a primary force but an emergent classical-mechanical result of the Exitus-Reditus dynamo torque curving a toroidal spacetime manifold. Quantum Localization: Resolves the "measurement problem" by defining quantum collapse as the mechanical deceleration of non-local potential into finite mass via the c² filter. Galactic Meiosis: Accounts for the observed maturity of early-universe galaxies (e. g. , MACS0416Y1) through an organismic division process rather than chaotic accretion. Empirical Falsifiability: Provides testable predictions for upcoming Event Horizon Telescope (EHT) data, specifically regarding "photon ring fuzziness" due to the lack of a sharp physical singularity. This framework aligns with recent 2024–2025 theories on emergent gravity and quantum entanglement, moving physics away from ad-hoc fields and toward a logical, self-regulating "render".
Diego Jose Merizalde (Thu,) studied this question.