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The Evolution of Time (Director's Cut)

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Published on 01 Jul 2022 / In Film & Animation

The Evolution of Time and the Carnot Cycle at the Edge of the Universe

By Gavin Wince


We are all time travelers... drifting through time at a steady pace, one moment at a time. In what direction are we moving through time? Or does time move through us? How many dimensions of time are there? Though slightly allegorical, three-dimensional time offers physics new parameters, accounting for conventional and exotic physical phenomena, while maintaining the conservation of energy and symmetry groups found in physical law.

I began playing with the idea that all of physics could be reduced to just interactions between spatial and temporal coordinates. I wondered if inertia and momentum might be composed strictly of temporal components. This would require extra time dimensions. Could inertia or momentum be used as indicators of multi-dimensional time? What about charge, spin, and other properties of matter? Answers to some of these questions appeared to reside in neutrino research, specifically neutrino flavor oscillation.

The universality between Thermodynamics and Temporal Mechanics can reduce the fundamental forces of nature into a single expression, a new equivalence principle, which can be used as the generator for the evolution of time.

Once Quantum Mechanics is seen through the lens of three-dimensional time, the EPR paradox looses its mystique. The speed of light may be restricted to a set speed limit within each individual frame of reference, however, frames of reference can undergo periods-of-time at varying rates of the passage-of-time.

If the positive side of absolute zero is a state of condensed matter, what is on the negative side of absolute zero? Uncondensed matter?

The anti-matter aspect of the Dirac equations may have been misinterpreted. The convention is to assume that "matter" is composed of "particles" distinctly different from "antimatter" composed of "antiparticles". The assumption of one time dimension locks in this interpretation of the Dirac Equations. However, the uniform production of particles and antiparticles both in the laboratory and naturally, leads to the question: where is all of the antimatter that theoretically should have been produced with all the visible matter we see as our universe? Yet, if we apply our three-dimensional time loop to the Dirac Equation there is an alternative interpretation for this so-called "missing antimatter".

The Higgs particle data from both ATLAS and CMS appear to exhibit unintentional effects of quantum entanglement. Comparing the neutral Kaon mixing CP-violation and the neutral B-meson oscillation T-violation with the Higgs particle decay modes appear to demonstrate a new kind of symmetry breaking: M-Violation (mass).

With out a begin or an end, from the smallest to the largest, the universe emerges through upwelling from the infinitesimal depths of quantum fluctuations and cataclysmic eruptions amalgamating through a variety of entropic cycles of temporal loops.

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