EGESB-G2 Cosmology & Phenomenology: Multiscale Emergent Convergence (Version 8.1)

Abstract: This preprint presents EGESB-G2, a unified framework that derives spacetime geometry, gauge fields, QCD confinement, dark matter, and dark energy from a single object: a weighted entanglement lattice (B= (V, E, W) ) on a manifold G₂ embedded in a five-dimensional Randall-Sundrum bulk. The work organizes the physics into three levels, eliminating the need to postulate background metrics or external matter fields. Key Results of Version 8. 1: Fundamental Derivation: Derivation of the Einstein and Maxwell equations directly from the G₂ 3-form structure and the entropic flux. Cosmology: Prediction of the parameters w₀ = -0. 980 and wₐ = +0. 070, with dark energy derived as an entropic condensation G₂. Particle Physics: Derivation of N₆₄₍ = 3 fermionic generations and the QCD string tension (ₐ₂₃ 0. 18 GeV²). Empirical Validation: Tests on 175 SPARC galaxies (RMS = 3. 71 km/s) and analysis of NEO residuals. The paper includes a table of ten falsifiable predictions (Table 7. 10) testable via upcoming DESI DR2+, Euclid and LHC Run 3 data.