This comprehensive 335-page monograph presents the MIND framework—encompassing Momentum Inertial/Non-inertial Dynamics (MIND-C) for classical systems and Momentum Induced Non-inertial Dragging (MIND-R) for relativistic regimes—a revolutionary theoretical structure that reinterprets fundamental physics by establishing linear momentum as the primary dynamical quantity, with forces emerging as derived geometric projections onto coordinate bases. Framework Regimes MIND-C (Momentum Inertial/Non-inertial Dynamics): Classical regime applicable to laboratory rotating systems, spacecraft propulsion, and planetary rotation. Governs physics when velocities v 10¹⁹⁰: 1 favoring MIND-R) Residuals: RMS 30% lower than ΛCDM, no systematic trends Hubble tension resolution: Tension reduced from 5. 4σ (H₀ˡocal = 73. 0 vs H₀CMB = 67. 4) to 2. 0σ (H₀MIND, CMB = 70. 6 ± 1. 2) by accounting for different frame evolution at measurement scales. JWST high-z galaxies explained: Frame relaxation makes z = 11-13 galaxies appear intrinsically brighter (44% greater luminosity distance at z = 13), resolving tension with hierarchical structure formation. Massive galaxies (M_* > 10⁹ M☉) at z ~ 12 are natural outcome, not anomaly. Cross-Scale Unification (Section 9) Demonstrates coherent operation across five physical regimes via universal scaling laws: Regime MIND Scaling Validation Laboratory MIND-C E ∝ p SpinLaunch (4/4 predictions) Planetary MIND-C Ω ∝ ε/γ Solar System (8/8 planets 5σ, enabling definitive validation or falsification within 5-10 years. Implications and Open Questions (Section 11) Particle physics: Terminates WIMP searches (zero detections), reallocates resources to axions (strong CP), neutrino mass hierarchy, quantum gravity phenomenology. Supersymmetry motivation weakened (WIMP miracle eliminated) but GUT unification remains viable. Quantum gravity connections: MIND momentum-first ontology aligns with: Loop quantum gravity (spin networks as momentum basis) Causal set theory (causal structure encodes momentum flow) AdS/CFT holography (bulk geometry from boundary momentum currents) Speculative synthesis: MIND may be low-energy effective theory where fundamental momentum operators p̂^μ generate derived metric g_μν via quantum correlations, predicting momentum non-commutativity p̂^μ, p̂^ν = iħ Θ^μν (p). Unresolved tensions: Galaxy clusters: 10× mass discrepancy not fully resolved; requires stochastic frame dragging extension or ~10% baryonic dark matter (primordial BHs, cold H₂) Large-scale structure: N-body simulations needed to validate momentum-driven gravitational instability Elliptical galaxies: Faber-Jackson relation (L ∝ σ⁴) not explained; dispersion-dominated systems may require non-coherent extension Technology applications (ABÏON Drive): Terrestrial (2D/3D propulsion): Ground transportation systems (maglev enhancement, zero-friction vehicles) Aerial platforms (VTOL aircraft, drones with extended endurance) Maritime propulsion (submarines, surface vessels with no propeller drag) Space Applications: Satellite station-keeping and orbit maintenance (2B/yr market, GEO/LEO) Spacecraft primary propulsion (Ma
Alvaro Fabian BRICIO ARZUBIDE (Mon,) studied this question.