Programming relativity and gravity in Planck level Simulation Hypothesis models

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Abstract
The Simulation Hypothesis proposes that all of reality is in fact an artificial simulation, analogous to a computer simulation, and as such our reality is an illusion. Outlined here is a simulation hypothesis approach that uses an expanding (the simulation clock-rate measured in units of Planck time) 4-axis hyper-sphere and mathematical particles that oscillate between an electric wave-state and a mass (unit of Planck mass per unit of Planck time) point-state. Particles are assigned a spin axis which determines the direction in which they are pulled by this (hyper-sphere pilot wave) expansion, thus all particles travel at, and only at, the velocity of expansion (the origin of $c$), however only the particle point-state has defined co-ordinates within the hyper-sphere. Photons are the mechanism of information exchange, as they lack a mass state they can only travel laterally (in hypersphere co-ordinate terms) between particles and so this expansion cannot be directly observed, relativity then becomes the mathematics of perspective translating between the absolute and the relative motion (3D space) co-ordinate systems. Units of $\hbar c$ (velocity and momentum) are used to `physically' link particles, thus a gravitational force may be dispensed with. As these are particle to particle links, information regarding the macro objects is not required, the gravitational orbit as the sum of these individual particle to particle $\hbar c$ orbitals. A 14.6 billion year old hyper-sphere (the sum of Planck black-hole units) has similar parameters to the cosmic microwave background. The Casimir force is a measure of the background radiation density.
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First archival date: 2016-10-03
Latest version: 10 (2020-07-06)
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2016-10-03

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