This paper provides a deterministic, hydrodynamic resolution to the persistent Muon g-2 anomalous magnetic moment discrepancy. By reclassifying the quantum vacuum as a compressible superfluid ocean, we demonstrate that the observed shift is not a manifestation of exotic particles, but a consequence of 'vortex drag' (₃ₑ₀₆) and vacuum viscosity () acting upon the muon’s localized rotational vortex. Key Contributions: Scale-Invariant Unification: Proof that the same vacuum pressure gradient (- Pᵥ) responsible for the flat rotation curves in M31/M33 galaxies also induces the magnetic moment lag at the subatomic scale. Empirical Validation: 99. 8% correlation with Gaia DR3 galactic rotation data (validated via numerical simulation dvtₛimulasyon. csv). Mathematical Foundation: Derivation of the Systemic Fluctuation (SF) coefficient, unifying subatomic precession with galactic dynamics through the Core Vacuum Constant (ᵥ 4. 28 10^-11 m/s²). This work replaces the 'Dark Matter' paradigm with a mathematically closed, scale-invariant hydrodynamic framework.
Umut Artik (Sat,) studied this question.