The 5-sigma discrepancy between early-universe (Planck CMB) and local (SH0ES) measurements of the Hubble constant (H0) represents a critical challenge to the Lambda-CDM model. This paper proposes a scale-invariant metric theory, the G-Theorem, which identifies the Hubble tension as a geometric projection effect. By defining a topological coupling constant kappa = 3/14, derived from the dimensional ratio of the Lie algebras su (2) and g2 (the automorphism group of the octonions), we establish a transformation between the global background flow and the local matter-influenced metric. We show that the local Hubble constant follows the relation Hₗocal = Hglobal * sqrt (1 + kappa). Applying the Planck value of Hglobal approx. 67. 4 km/s/Mpc, the model predicts H0 approx. 74. 21 km/s/Mpc, showing exceptional agreement with current local observations.
Enrico Pellegrino (Wed,) studied this question.
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