The persistence of fundamental paradoxes in modern physics — including the hypotheses of dark matter and dark energy, spacetime singularities, and probabilistic non-locality — indicates the analytical exhaustion of the geometric vacuum paradigm. In this Second Edition of the monograph, the updated Theory of Vibrational-Energetic Resonant Continuum (TVERC) is presented. The observable Universe is conceptualized as a physical, elastic, and compressible 3D continuum, whose baseline pressure (10³5 Pa) is calibrated using experimental data from the Thomas Jefferson National Accelerator Facility. Elementary particles are modeled not as point-like objects, but as spatially extended topological solitons (quantized Volume Deficits). By applying the mechanics of deformable solid bodies, nonlinear acoustics, and Gordon's analogue gravity, the macroscopic speed of light, Newton's law of gravitation (1/r²), and relativistic kinematics are analytically derived from first principles. It is demonstrated that the flat rotation curves of 166 galaxies (SPARC database) are deterministically modeled through the optical-mechanical diffusion of fractal ripples in the interstellar medium, eliminating the need for corpuscular dark matter (achieving a universal convergence with a 16. 71% error margin using only two global continuum parameters). Furthermore, the paradox of the Bullet Cluster (1E 0657-558) is fully resolved through the mechanism of thermodynamic decoherence of the vacuum. An algebraic analysis of the empirical data from Clowe et al. (2006) proves that shock-heated plasma loses its phase resonance with the 3D continuum, driving its optical refraction coefficient to absolute zero (kₚlasma = 0. 0000) and explaining the separation of gravitational lensing from baryonic gas without invoking dark matter. Black holes are redefined as stratified macro-objects with a finite solid core (Topological Monolith) and a Twilight Zone of acoustic disintegration, which generates a gravitational-wave resonance (empirical verification for Cygnus X-1 matches LIGO data within a 0. 2% margin). Ultimately, a hydrodynamic resolution to the paradoxes of quantum tunneling, entanglement, and cosmological expansion is provided, establishing a unified, deterministic physical reality.
Pavel Rybakov (Thu,) studied this question.