Brook Theory: A New Axiomatic Framework for the Unification of Quantum Mechanics and General Relativity

The central obstacle in modern physics remains the inability to correlate General Relativity (GR) and Quantum Mechanics (QM). GR describes the macroscopic curvature of spacetime by mass (m) and time (t), while QM describes the microscopic world via frequency (ν) and probability. This article introduces Brook Theory, an axiomatic framework that resolves this divide by identifying Mass as the singular mathematical bridge. The theory rests on two core principles: the Time-Mass Equivalence (|t/m| = 1) and the resultant Fundamental Force (F=1). The Macroscopic Key re-forms the Lorentz transformation by comparing relativistic mass to time dilation, proving they are identical phenomena. The Microscopic Key demonstrates that force is fundamentally a unified, constant value derived from the evolution of time itself. The resultant mathematical unification proves that the perceived separation between GR and QM is merely a dimensional difference of perspective, with both systems ultimately resolving to the constant Unity defined by C=1 and F=1. This theory provides a testable hypothesis for a single, comprehensive physics, potentially serving as a candidate for a theory of everything.