The Thompson-Isaac Time-Space Theory Unified Equations for Space, Time, and Entropy

The Thompson-Isaac Time-Space Theory (TITST) presents a unified framework for space, time, and entropy, incorporating new formulations of relativistic transformations and quantum corrections. This work introduces a modified metric structure, leading to testable deviations from classical General Relativity and Special Relativity, particularly in high-energy and gravitational regimes. This paper extensively introduces and details the Thompson-Isaac Time-Space Theory, a framework unifying time, space, and entropy across physical regimes through two interdependent equations. This approach calculates observable time for entities (living or nonliving) within a universe, requiring rigorous application of established scientific resources. Each term is calibrated to match observed data (e.g., GPS, LIGO) while extending to speculative domains (e.g., white holes), leveraging standard constants and empirical adjustments. Achieving 0-1% discrepancy, when applied properly, across 500 tests—detailed herein—the theory aligns with Special Relativity (SR) and General Relativity (GR) predictions (e.g., muon decay, Mercury precession) by reinterpreting time dilation as a spatial distortion effect (Ds) rather than a change in time itself. Within TITST, a Spatial distortion isn’t necessarily a literal distortion of space (like bending or warping in the geometric sense) but rather a broader concept: any effect in space that causes a change in perceived time. This includes but is not limited to: gravity, velocity, quantum effects, magnetic fields, dark energy, thermal effects, frame-dragging, entanglement, dark matter, and gravitational waves. They could all be considered as a spacial distortion within this framework. While surpassing SR/GR with quantum corrections, entanglement effects, and a quantum- gravity framework; It also provides non-zero, physically meaningful predictions where SR/GR falter (e.g., Planck-scale time perception, black hole interiors, wormhole traversability) and enhances SR/GR successes (e.g., Hubble parameter) with quantum and dark matter effects. Overfitting is avoided, and numerical stability is ensured, positioning the theory as a challenge to Einstein’s theories. With over 500 tests (ongoing refinement yielding 0–1% maximum deviation), it spans gravitational, cosmological, and quantum regimes (e.g., GPS corrections, neutron star dynamics). This data-driven evidence may redefine physics, reviving Newton’s concept of absolute time with 21st-century insights. This paper is highly open to review, corrections, and semi interpretations. I welcome any challenge or validation of this theory, it’s equations, test, and aspects in any and all forms, or fields of human knowledge