Quantitative Conditions and Convergent Operations That Are Compatible With the Universe as a Persistent Generator of Successive Simulations

Authors

  • Michael A Persinger Laurentian University, Sudbury, Ontario, Canada P3E 2C6
  • Stanley A Koren Laurentian University

DOI:

https://doi.org/10.24297/jap.v12i1.177

Keywords:

Simulations, Photons as Pixels, Gravitons, Rest Mass of Photons, Rate of Expansion, Electron Orbital Time, Entanglement, Human Cognition, Universe

Abstract

The capacity for computer-like simulations to be generated by massive information processing from electron-spin potentials supports Bostroms hypothesis that matter and human cognition might reflect simulations. Quantitative analyses of the basic assumptions indicate the universe may display properties of a simulation where photons behave as pixels and gravitons control the structural organization. The Lorentz solution for the square of the light and entanglement velocities converges with the duration of a single electron orbit that ultimately defines properties of matter. The approximately one trillion potential states within the same space with respect to the final epoch of the universe indicate that a different simulation, each with intrinsic properties, has been and will be generated as a type of tractrix defined by ±2 to 3 days (total duration 5 to 6 days). It may define the causal limits within a simulation. Because of the intrinsic role of photons as the pixel unit, phenomena within which flux densities are enhanced, such as human cognition (particularly dreaming) and the cerebral regions associated with those functions, create the conditions for entanglement or excess correlations between contiguous simulations. The consistent quantitative convergence of operations indicates potential validity for this approach. The emergent solutions offer alternative explanations for the limits of predictions for multivariate phenomena that could be coupled to more distal simulations.

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Author Biography

Michael A Persinger, Laurentian University, Sudbury, Ontario, Canada P3E 2C6

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Published

2016-07-30

How to Cite

Persinger, M. A., & Koren, S. A. (2016). Quantitative Conditions and Convergent Operations That Are Compatible With the Universe as a Persistent Generator of Successive Simulations. JOURNAL OF ADVANCES IN PHYSICS, 12(1), 4178–4187. https://doi.org/10.24297/jap.v12i1.177

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