This paper presents a first-principles hydrodynamic resolution to the Vacuum Catastrophe, addressing the 122-order-of-magnitude discrepancy between Quantum Field Theory predictions and observed cosmological constants. By reclassifying vacuum fluctuations as continuous vibrational modes (phonons) of a superfluid vacuum ocean, Dynamic Vacuum Theory (DVT) establishes a scale-independent energy density formulation. We present a unified empirical validation matrix demonstrating DVT's predictive accuracy across Mercury, Andromeda (M31), Triangulum (M33), and HD 80606 b, proving that galactic rotation anomalies and cosmic expansion are hydrodynamic consequences of fluid vacuum pressure gradients rather than dark matter. The geometric derivation of the Core Vacuum Constant χv=(2/π) × G provides a deterministic bridge between gravitational and nuclear regimes.
Umut Artik (Thu,) studied this question.