How Bidirectional Time Yields Entropy and Causality in Temporal Flow Physics
How Bidirectional Time Yields Entropy and Causality in Temporal Flow Physics By John Gavel In the Temporal Flow Physics (TFP) model I’ve been developing, time is not a passive background but a fundamental entity — a quantized, 1D flow field from which space, mass, and all physical laws emerge. One of the most compelling consequences of this framework is how entropy and causality — usually postulated in physics — naturally emerge from flow interference itself. In this post, I’ll walk you through the core idea: how bidirectional temporal interference leads to a preferred arrow of time , how damping arises from this process, and how entropy and causal structure follow directly. I’ll also share the results of a recent simulation that confirms the stability of this mechanism and matches the predictions from our flow equations. The Insight: Interference Determines the Arrow of Time Most physical models assume a time direction. Thermodynamics assumes the Second Law. Relativity assume...