Abstract
The strength of the magnetic field for different ratios of matter densities relative to the permittivity of a vacuum solves for values approaching the velocity of light. When the strength of the field associated with densities similar to liquid water, ice, or stars (such as the Sun) is considered with respect to the magnetic permeability and average mass density of the universe, the emergent velocity is ~10<sup>23</sup> m•s<sup>-1</sup>. This value has been derived from several approaches as the latency for excess correlation or “entanglement” and is consistent with a process that might explain the integrity of large-scale spatial structure over distances that are within fractions of the universe’s present diameter. The estimated latency to traverse this diameter with this velocity relative to the total duration of the universe (the final epoch) when considered as an Aharanov-Bohm type phase shift, results in an energy quantum that is convergent with Planck’s constant. One interpretation is that the duration of a single electron’s orbit is the phase shift between duration (latency) to traverse the universe and its total duration (final epoch). If this approach is valid then non-local effects and related excess correlations (Schrödinger’s “entanglement”) between photon emissions and specific dynamics of densities similar to liquid water may be a property of these conditions immersed within an average universal mass density of about one proton per cubic meter. It may also accommodate the challenges of understanding the apparent homogeneity across large scale space.
Highlights
A central aspiration of physics and cosmology is to distillate all complexities to a single unified equation, the quintessential solution may instead reflect convergence and congruence between quantitative values derived from markedly different assumptions and perspectives
Magnetic field strength B and the electric field medium εo or 8.85·10-12 A2·s4 ·kg-1 ·m-3 are representative of the general properties of space their quantitative relationships and the deductions derived from these values should be consistent across levels of discourse
Because this value emerged from the employment of the estimated magnetic field strength based upon the density of water but immersed within the medium of one proton per cubic meter, one interpretation is that entanglement velocity occurs primarily for specific densities of mass because they are intercalated with the spatial fabric of the universe
Summary
A central aspiration of physics and cosmology is to distillate all complexities to a single unified equation, the quintessential solution may instead reflect convergence and congruence between quantitative values derived from markedly different assumptions and perspectives. When σ=one proton per m3 (1.67·10-27 kg) produces a Michael Persinger and Trevor Carniello: Coupling the Permeability and Permittivity of Space to the Electron Orbital Time: Potential Phase Shift Between Entanglement Latency and the Universe’s Final Epoch magnetic field strength of ~13.7 nT This particular density converges with Eddington’s Number for the estimated mass of the universe assuming one unit is the mass of a proton. Where μ=4π·10-7 N·A-2, a single unit charge (for a proton) is 1.6·10-19 A·s, and B=1.06·107 T which was the calculated solution for the magnetic field strength for the relationship between the density of water and the permittivity constant. Both unit charge and μ are constants. We have shown that the relationship between the impedance and capacitance of the universe as a single unit results in Planck’s time and 8π as an implicit geometry that represents the numbers of “turns” or a process that shares variance with inductance [12]
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