Light and Entanglement Velocities for the Electron and the Proton in Minkowskian Space Require Surface Areas that Approximate the Human Cerebrum: Implications for Excess Correlations
The distinctions
between locality and non-locality as well as causality and excess correlation
may be related to coupling between increments of space-time or to the total
space-time within the universe as a unit. The most likely candidates for the
latter are the proton and the electron when related by Minkowski’s space-time.
When two velocities: light in a vacuum for locality and the “entanglement”
velocity based upon parameters that define the universe for non-locality, are
considered the two times required to produce identities for the -v2t2 components are frequencies whose energies approximate
the neutral hydrogen line (primarily associated with shifts in electron spin
direction) and the mass equivalence of a proton. The values for the additional
three spatial dimensions required to produce a solution whose square root is
not imaginary and greater than zero are within the domains of the surface areas
of the human cerebrum. Detailed calculations converge to show that the
proportions of energy that represent the electron’s Compton energy and the
proton’s mass equivalent may be central to the condition of excess correlation
within the cerebral volume. Proton channels within the neuronal cell plasma
membranes whose pH-dependent specific currents produce the required magnetic
field strengths could be the physical substrates by which excess correlations
between brain activities of human subjects separated by non-local distances
might occur. If protons are considered as the basic Eddington (number) units of
the universe then Mach’s principle that any component of the universe is
determined by all of its components may be testable empirically.
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