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Friday, May 18, 2018

Audio on electron charge

When one looks at the electron/proton pair it is theorized that you are looking at the ct1 line folded one time for every compressed ct state.
The math has been done on this before but it is basically 10^16*6^8*2^4 lines of ct1 folded within a single neutron and divided up in accordance with the ratio for for the electron and proton PLUS the trappeed folds which some of the math studies shown in book 3 indicate may be half again as much as the states themselves.
One can look at the movement of lines of ct1 straightening as ripping apart ct1 states or ct2 states or possibly ct3 stateswhile spinning the rest of the electron proton pair at the same time.
The process generating a charge effect over a long period of time from this seems explainable but why one is positive and one negative is not entirely clear although it may have to do with size and a view of charge which is different from a net positive and negative ct1solution and instead might be related to the imbalance of states and the subquent draw of states between the t4-7 vs t4-9 densities which seems more likely.  One must remember that these states also benefit from ohter lines which are moving towards compression and filling in where there decompressing arms are tearing them apart.
              Net positive and negative features suggest that adjacent, dimension independent ct1 states cancel each other out, so that only the net values of ct1 control the charge of the universe at any point in time.  This raises idea of “dual universes” yielding the universe that we experience which is what we observe locally and where antimatter is present in a very transient state although it is also possible that in the tearing and reconsolidation process that is the solution to the f-series mathematics that an occasional negative result where a great deal of tearing is present is to be expected, possibly related to neutron breakdown, multiple line stripping simulataneously  or similar fairly common, but nevertheless transient features of the folding of states to yield dimension and the unfolding to create the  net expansion, dark energy, entropic environment which we experience.

          There is a different effect at play here based on AuT quantum perspective.  In a quantum state there is no real charge other than the tendency towards or away from compression between t4-7 and t4-9 but when examined, you pull apart these two loosely connected unbalanced results with the result of the charge are observed.
          The act of looking at the long term or short term interaction between the two halves of the neutron/ct4 transition states yields the elimination (temporary or permanent) of unbalanced ct2-3 loading phenomena in the lighter state as negative and in the higher state as positive except in situations where there is an unstable amount of charge within the system when you can get the opposite charge and an antimatter result.
          It may be supposed that if you are pulling the two in different directions and they are brought together, it is like pulling hard on a knot that can come apart, it comes apart.
          The figures above were used to show conceptually how compressed states can be pulled by the expansion resulting from decompression and how this can pull all the embedded states with it to create these types of result.
Since charge is a feature of loading or unloading of ct2 onto ct3 information arms, the idea is that the surrounding system of the electron/proton pair can contribute loading or unloading of this type of information over different quantum states in the preferred net amount of negative for the electron towards one would suppose a higher speed movement because of the possibility of ct1 escape (through further decompression of ct2) and the proton exhibits a net loading towards a slower more compressed state which is observed.  

While the figure shows a single line moving through a proton/electron pair, the amount of folding suggests that there would be a factor of 10^16 lines of this type always moving towards compression or decompression.
It also appears likely that the higher velocity of the electron is the result of the ct1 state carrying more of the electron per movement than the photon as the unwinding occurs because each change in the movement of the ct1 carrier line dragging through the electron/photon knot effects approximately 1500 electrons parts for each proton quantum parts (the ct3 states making them up) if you include the electron bundle of information discussed in books 1-3 of algorithm universe theory.
This would also suggest that if all elements of movement were considered, including rotational and vibrational movement as well as movement through space, that the electron would be moving approximately 1500 times as fast as the proton.


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