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From Temporal Flow to Spacetime Geometry: Why Fluctuations are Scalar Fields in Temporal Flow Physics Introduction What if spacetime itself isn't fundamental, but emerges from something simpler? Temporal Flow Physics (TFP) proposes a radical answer: all physical phenomena arise from one-dimensional temporal flow lines whose interactions weave the fabric of spacetime itself. Mass, energy, and geometry aren't basic building blocks—they're emergent properties of how these flows behave and interact. At the heart of this framework lie two key fields: the fluctuation field δ F \delta F , which captures local deviations in flow rate, and the entropy alignment field S S , which quantifies how well flows align with each other. This post explores how these scalar fields emerge naturally from flow dynamics and govern the appearance of spacetime geometry, complete with mathematical validation against known physics. The Flow Foundation In TFP, reality begins with fundamental 1D...

  Emergent Gravity: Why Dimensional Consistency and Gauge Dynamics Matter in Temporal Flow Physics By John Gavel Introduction Temporal Flow Physics (TFP) is a new framework where time itself is fundamental , and space emerges as a relational construct from quantized 1D temporal flows F i ​ ( t ) . This is a paradigm shift that demands all derived physics—gravity, matter, fields—fit together dimensionally and conceptually. Today I want to share how the emergent gravitational dynamics , encapsulated by an Einstein-like equation, arise naturally and dimensionally consistently from the underlying dynamics of the flow field F . We'll explore not only how the fabric of spacetime emerges but also how its curvature arises from fundamental "misalignments" or "twists" in these flows , quantified by a gauge field strength, and how this links directly to known physics constants and equations. The Temporal Flow Field and Dimensional Basis The fundamental object in TFP is t...