Emergent Physics from Temporal Flow: Newton, Maxwell, Einstein, and Quantum Theory from First Principles
Emergent Physics from Temporal Flow: Newton, Maxwell, Einstein, and Quantum Theory from First Principles John Gavel Introduction Temporal Flow Physics (TFP) is a theoretical framework proposing that time is fundamental , and all familiar physical structures—space, particles, energy, and forces—emerge from quantized causal interactions between discrete temporal flows . Instead of assuming pre-existing spatial dimensions, TFP derives space as an emergent property of comparisons between flows. This post explores how fundamental physical laws naturally emerge from the first principles of TFP. We begin by deriving Newton’s laws from flow accumulation principles, then show how Maxwell’s equations arise from entropy-regulated causal connectivity. We next examine how Einstein’s field equations emerge from flow distortions. Finally, we delve into Quantum Mechanics (QM) and Quantum Field Theory (QFT) , exploring how wave-like behavior, uncertainty, and gauge interactions arise through entropy...