A Fluid Dynamics Framework for Space-Time: Unifying Relativity, Quantum Mechanics, and Cosmology

We present a unified theory in which space-time behaves as a compressible fluid medium. Within this framework, gravity, black holes, wormholes, time dilation, quantum tunneling, entropy flow, and cosmic expansion all emerge as pressure-driven effects. Mass displaces the medium, creating a local pressure deficit—resulting in surrounding space-time fluid pushing inward, which we observe as gravity. Wormholes are modeled as tunnel-like pressure gradients, while quantum phenomena such as entanglement and tunneling are seen as localized disruptions and oscillations in the space-time fluid. The model maps to Einstein’s field equations as a fluid equation of state, reproduces known general relativistic and quantum predictions, and resolves singularities by introducing finite-density collapse zones. This theory eliminates the need for exotic matter, reframes entropy as a spatially-distributed flow parameter, and provides an intuitive mechanism for time’s passage. The framework is consistent with recent peer-reviewed research in quantum gravity, cosmology, and emergent space-time models, and offers testable predictions for gravitational lensing, tunneling behavior, and cosmological anisotropies. This unified physical model is grounded in pressure dynamics and entropy thermodynamics, creating a mathematically coherent, observationally compatible, and conceptually complete Theory of Everything.