Higher states, atomics and molecular states, function as a result of the multiple types of interactions within the mesh-like matrix making it up. It moves constantly and at a very high rate of speed. Substitutions of ct1 ultimately drive the mechanism moving electrons at very high speeds relative to the associated Protons and Neutrons although presumably there is a notable speed difference in Protons over Neutrons. Charge also has to be deal with, presumably resulting from longer carriers for positive charges along positive spirals than the negative ones.
One suggestion, that multiple polarity states could substitute for turn solutions or positive and negative spiral solutions cannot be discounted completely, althought he observed model of net curvature suggests the primary model and the polarity model with infinite deviations of polarity arrives at the same net effect, a halving of the positive is the same as the halving of the angle of intersection or origin.
Density, assuming electrons to be multiples of the minimum ct4 state, would suggest that carriers behave differently depending on the orientation.
The arrangement suggests that true spiraling may be replaced with polarity shifts between positive, negative and neutral, at least at the ct4 level. It has to be remembered that these shifts are not powered by forces, but are instead powered by mathematical solutions or you end up where traditional physics gets stuck looking at force driven reactions instead of the underlying sequences giving rise to force.
The interactions are numerous for ct4, but not infinite comprising:
ct1 stacking (to get f-series carriers), ct1 compression (to get to ct2), ct2 compression (to get ct3) and ct3 compression (to get to ct4). All of these exist together for ct4 and presumably for positive and negative spiral solutions (positive and negative being merely words to describe the intersecting solutions) and it is further understood due to the building mechanism f-series that for the 1111,2222,3333 ct4 mechanism that each state involved (ct1,2, and 3) all are formed from F-series spirals constantly lengthening according to the formula x=x-2+x-1. Given the very high states of compression for each of these, they are meshlike and snakelike at an unbelievably complex level at any speed greater than 1.07x10-37th of a second, the one at a time change and even at that very slow speed the substitutions, compression and decompressions happen at very high multiples.
The most basic of these interactions is gravity, then photonic energy, then wave energy, then the strong and weak forces which presumably result from having multiple solutions occurring together. This suggests that the number of forces is a function of the number of compression interactions. For ct2 you have ct1 substitutions which give speed to the resulting issue which is so fast that we call it light, 1:256 each 1.07x10-37th of a second.
For ct3 you have ct1 substitutions but also ct2 substitutions giving rise to speed and linear attachment to form waves of high speed change.
For ct4 you add to each of the other two the ct3 substitutions. Now you have speed, plus linear attachment, plus non-linear attachment.
Non-linear attachment means attachment along multiple dimensions. Electrons can be defined as those ct4 states that have limited non-linear attachment, essentially one attachment to a ct4 proton or none in some cases.
Once you begin to have multiple non-linear attachments resulting from the 4th coordinate change you begin to have a positive charge result although positive and negative are random terms since polarity can be reversed for different spiral solutions, an anti-matter environment where the spirals are in the opposite direction.
The solution to the equation is merely that solution which provides a change for compression of 1, 11,111,1111,11111 solutions to F-series fixed equations. While a portion of this is the F(x)^(2^x) equation, that is more an expression of the resulting changes of the tying of multiple f-series together than the actual equation that says at compression you add one more coordinate change.
We are missing anti-matter (at least locally) and we are missing gravity overall. The missing gravity is easier to deal with.
The problem with AuT is the missing gravity.
Some of it is hidden in History according to observation which is now the front runner for the origin of Dark Matter.
But the rate of information growth involves more than just ct1 which would not generate gravity although it would generate space.
Hence we need to look at ct1-non linear vs ct1 linear; the former is just information, the latter is information that can be compressed.
Only for ct1 does the process which leads to this equation for the entire universe:
(pi)r^2(2)-(pi)r^2(1)=F(x2)-F(x1).
For CT2, which comes into existence as space time, there is information in the form of history which goes with the different compression states. The existence of History (SCT) remains for all subsequent states.
This approach assumes two different types of information. One is space time information, having at least one compressed element (vs for example ct3 which has 2). The relativistic effects extend far past the perceived gravitation elements in this.
CT1 increases without gravity so we have expansion of the universe in an F-series of information (space during decompression and a massive increase in higher ct states during the compression state).
On the other handhe higher CT states hide most of the change as history which shows up as dark matter.
So what happens with the anti-matter?
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