1 F-series 0,1,1 or 1,1,1 Base 0,1,1 Exp 2^1 c-scale Equation 2^2^1 (2^2)
2 F-series 11,11,22 Base 1,1,2 Exp 2^2 c-scale Equation 4^2^2 (4^4)
3 F-series 111,222,333 Base 1,2,3 Exp 2^3 c-scale Equation 6^2^3 (6^8)
4 F-series 2222,3333,5555 Base 2,3,5 Exp 2^4 c-scale equation 10^2^4 (10^16) e=mc^2
5 F-series 33333,5555,8888 Base 3,5,8 Exp 2^5 c-scale equation 16^2^5 (16^32) (bh scale)
This shows the relationship between the type of F-series acting together, the base (a direct function of the number of F-series units associated with a given F-state, the exponential directly related to the number of coordinates changing together.
This is written to suggest that the larger the information state base, that is the larger the stable compression state, the higher the originating F-series. This suggests an interaction between compression and the historical building block of the prior two state which is observed. As is discussed later, the historical movement from 0 to 1 embodying the gravitational element (this is NOT a boson, it is a mathematical construct based on the expression of information) remains in higher compression states.
The suggestion is that space doesn't compress in the same way as other information states because it starts from non-linearity The spatial spirals are stuck in the initial transition. The exact forces that allow for the compression of any states are imperfectly set out, they are observed and subject to calculation. It is observed, from the existence of gravity, that all states have a transition from zero built into them which is carried as they are combined with prior information states in order to reflect the compression we observe.
If one accepts the model of positive and negative spirals having negative results (relative to one another) it suggests that gravity (linearity to non-linearity) and entropy (the solution to approaching and receding spirals) are independent, one being related to the 0,1 transition shown in item 1 and the other being reflected in the "direction" of location of the spiral solution. We see entropy increasing and expansion against gravity during net expansion solutions (predominately receding spirals) and increased order with a greater concentration of gravity during net compression solutions (predominately approaching spirals).
One suggestion in the model above is that "space" is added to the highest series to get to the next higher series during compression events, but this also appears to be more of a graphic determination than one supported by any modeling. The amount of space necessary to achieve this transition would be very high. On the other hand, the value of x (the single variable defining the universe at any quantum moment) would necessarily have to be extremely high for there to be sufficient space to achieve this result, even at the black hole (bh) level we find ourselves at. This might be the limiting factor to higher compression states after any particular big bang. There just isn't enough 1,1,1 to add to 33333 to get to the 5,8,13 transition that we can be fairly certain forms the next base for the exponential 26^2^6 or 26^64th for the next most massive informational state (unless this number corresponds in mass to an observed supermassive black hole).
The idea that there is a single equation for our "universe" doesn't discount the possibility of other universes based on multiples of different series, that is, the center of our universe may be one in a series of underlying F'series, but that is for another blog.
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