Disputatio: Hubble Tension Solved via The Inverse Einstein Protocol

Abstract & Technical Summary This paper provides a deductive resolution to the "Hubble Tension"—the 5σ discrepancy between early-universe (CMB) and late-universe (local) measurements of the Hubble constant (H₀). By applying the Inverse Einstein Protocol, we shift the cosmological paradigm from an inductive, parameter-heavy model to a forensic mechanical framework. Key Findings: Matter Emergence: We invert E=mc² to M=E/c², defining c² as a "Deceleration Filter" or Resistive Membrane that localizes non-local energy. Toroidal Manifold: The universe is modeled as a 3-Torus governed by a 68/32 Exitus-Reditus Dynamo. Geometric Resolution: The shift from H₀ 67 km/s/Mpc to H₀ 73 km/s/Mpc is derived as a positional artifact of the manifold's Reditus suction post-midpoint. Calculated Position: We identify the current observer position at a displacement of s 5. 77 (on a 2 scale), where the torque constant (k=0. 36) naturally generates the observed 6 km/s/Mpc variance. This model accounts for the maturity of early galaxies (e. g. , JWST’s MACS0416Y1) via Galactic Meiosis and eliminates the requirement for "Dark Energy" or arbitrary cosmological constants.