Dist Babble

Temporal Flow Theory: A Framework for Emergent Spacetime and Unified Forces Abstract We present a comprehensive theory where time is the fundamental entity, manifested through discrete temporal flows that interact to form spacetime, matter, and forces. Our model introduces a mathematical formalism that connects quantum-scale flow dynamics to macroscopic physical laws, addresses Lorentz invariance as an emergent property, unifies gravitational and quantum phenomena, and provides testable predictions that differentiate it from conventional physics. 1. Introduction The nature of time remains one of the most profound open questions in theoretical physics. While General Relativity treats time as a coordinate dimension and Quantum Field Theory as an evolution parameter, neither approach explains how spacetime emerges from a more fundamental substrate. We propose that discrete temporal flows at the Planck scale serve as the primary building blocks of reality, from which space, matter, ene...

Understanding Temporal Flows, Segmentations, and the Emergence of Matter and Black Holes In my model of temporal physics, the universe is constructed from a series of interactions between temporal flows. These flows, which serve as the fundamental units of time, are responsible for the creation and behavior of all matter, energy, and even phenomena such as black holes. By studying how these flows interact, reflect, and segment, we can begin to unravel some of the deepest mysteries of the cosmos. In this post, I will explain the basics of temporal flows, how they relate to the segmentation process, and how these ideas expand into the formation of matter and black holes. The Fundamentals of Flows At the core of my model is the idea that time is not a smooth, continuous progression but a series of discrete points or "flows." These flows represent the smallest possible unit of time, and when they interact, they give rise to the structure of spacetime itself. We can think of ...

In my model of Temporal Physics, the key principles are: Flows (FF) accumulate in a time-like sequence. The maximum flow is constrained by c c c , and when a flow reaches c c c , it inverts direction. Interactions between flows lead to the emergence of space-time structure and forces. Flow conservation applies, meaning positive and negative flows interact but do not cancel; they only redistribute. 1. Fundamental Flow Equation Each flow F i F_i F i ​ evolves over a temporal step Δ t \Delta t Δ t , according to: F i + 1 = F i + Δ F F_{i+1} = F_i + \Delta F F i + 1 ​ = F i ​ + Δ F where Δ F \Delta F Δ F represents the rate of accumulation due to prior interactions. When F i F_i F i ​ approaches c c c , we introduce an inversion function: F ′ = c − ( F − c ) = 2 c − F , if F ≥ c F' = c - (F - c) = 2c - F, \quad \text{if} \quad F \geq c F ′ = c − ( F − c ) = 2 c − F , if F ≥ c This ensures that flows do not exceed c c c but instead invert direction when this limit is rea...