Bridging Quantum Mechanics and Relativity with Temporal Flows
Bridging Quantum Mechanics and Relativity with Temporal Flows One of the biggest challenges in modern physics is reconciling quantum mechanics with general relativity. These two theories work exceptionally well in their respective domains—quantum mechanics at the smallest scales and relativity at large scales—but their mathematical structures seem incompatible. My model of temporal flows offers a natural way to bridge this gap by showing how the two frameworks emerge from the same underlying principles. At its core, my model treats temporal flows as the fundamental structure of reality, more primary than space itself. These flows interact in discrete steps, governed by simple rules that determine how they merge, reflect, or separate. The key realization is that while these interactions are inherently discrete at the smallest scales, they give rise to continuous behavior at larger scales—mirroring how molecular dynamics transitions into fluid mechanics. This transition is the missing l...