Metaconfiguration and The Big Bang: How our Universe starts with Quarks and ends with Quasars by John Caffrey

Author:John Caffrey
Language: eng
Format: epub
Publisher: eBookPartnership.com
Published: 2014-03-15T00:00:00+00:00

X. How Tesserons Account for Quantum Entanglement

Quantum entanglement has been defined as a physical phenomenon which occurs when pairs or groups of particles behave in ways such that the quantum state of each particle cannot be described independently. Instead a quantum state has to be given for the system as a whole.

In order to facilitate a solution to the question of quantum entanglement we need to ask ourselves: ‘If there is such a thing as “superluminal” velocity, in which circumstances might it apply?’ A light wave is like a three-dimensional shell issuing outwards from a point source (the vibrating atom from which the wave originates). The infinitesimal resistance it encounters as it expands outwards is in all three dimensions, and is of course the universal tesseron lattice. However when particles or groups of particles are the object of the exercise, they are either

a. Interchangeable with wave energy (if they are photons), or they:

b. Carry along a wave form with them due to the charge and inertia of their constituent particles.

Both (a) and (b) above are consequences of the existence of the ubiquitous tesseron lattice which provides a platform across which such discreet wave action as is witnessed in quantum entanglement can occur. The only problem, having correlated this ‘discreet wave action’ to the tesseron lattice, is the colossal speed at which it must be taking place.

It is important in this context to remember that when we measure a particle or property we are acting on that particle, property and in all cases on an electromagnetic wave of some kind. In this sense we are not propagating something in three dimensions but acting along the two-dimensional ‘membrane’ of that expanding individual wave. Thus because the resistance is along such a two-dimensional ‘membrane’ it will be proportionally less, the speed of the propagation induced by the measuring process will be proportionally higher, and will therefore – unlike the quasar jets of 3C 279 – be a real-life superluminal effect.

So it might be postulated that if the speed of light, with resistance in all three dimensions of the x-, y- and z-axes is:

xyz C1 = xyz C3/3, then the corresponding speed, with resistance only in two dimensions is:

xyz C3/2 ; So if xyz C = 299,792.458 km/s, then xy C = xyz C3/2 = 164,146,283.593 km/s.

Thus we arrive at a calculation which puts the speed of what Einstein termed ‘spooky action’ at:

164,146,283.593 / 299,792.458 times xyz C

So C sa = 547.533 times the normal speed of light

So if experiments show entanglement correlations which seem absolutely simultaneous, a light speed along the 2D surface of the light wave itself of c 3/2 would mean that those correlations could be taking effect at approximately 547 times the normal speed of light, and thus giving the very convincing appearance of a sort of telepathic entanglement.

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