This is a continuation of the universe in a nutshell.
An explanation of evolution from a non-random viewpoint will be given shortly although I'm moving around quite a bit right now.
I'm not sure what my publication schedule will be but I'm looking at volume 1 of the multi volume series being published in March.
While the book has all of the basics and then some from this series of posts, the "underlined" portions below show edits in that work reflecting the ongoing nature of the work to some extent, but mainly the editing process.
It is hoped that the algorithms that explain this phenomena will be better developed over the coming months.
What are the parts of the algorithm?
a) Defining the initial positions and changing positions of the solutions as x changes
i) in terms of the changing value of pi
ii) in terms of the changing position of variable length spirals
iii) in terms of individual spiral stacking
iv) in terms of U! stacking
That however, is in the future. The picture that goes with the prior posts showing time dilation isn't available here, but it will appear in the short volume in March.
11. Gravity, if a function of independent quantum states, can be used to figure out the total amount of information in the universe using a quantum value of gravity and anti-gravity (dark energy defined as solutions to algorithms moving towards compression), we could figure out how far along we were on a given “average” spiral arm (made up of averaging all spiral arms) given the amount of information in each state or by the rate of converging to diverging states.
An explanation of evolution from a non-random viewpoint will be given shortly although I'm moving around quite a bit right now.
I'm not sure what my publication schedule will be but I'm looking at volume 1 of the multi volume series being published in March.
While the book has all of the basics and then some from this series of posts, the "underlined" portions below show edits in that work reflecting the ongoing nature of the work to some extent, but mainly the editing process.
It is hoped that the algorithms that explain this phenomena will be better developed over the coming months.
What are the parts of the algorithm?
a) Defining the initial positions and changing positions of the solutions as x changes
i) in terms of the changing value of pi
ii) in terms of the changing position of variable length spirals
iii) in terms of individual spiral stacking
iv) in terms of U! stacking
That however, is in the future. The picture that goes with the prior posts showing time dilation isn't available here, but it will appear in the short volume in March.
11. Gravity, if a function of independent quantum states, can be used to figure out the total amount of information in the universe using a quantum value of gravity and anti-gravity (dark energy defined as solutions to algorithms moving towards compression), we could figure out how far along we were on a given “average” spiral arm (made up of averaging all spiral arms) given the amount of information in each state or by the rate of converging to diverging states.
12.
Length of consistency;
keeping the specific units for increasingly longer times represented by sequential quantum
lengths along F-series spirals varying according to a single
variable for all points in the universe (and causing the effect we call aging); while
velocity and acceleration reflect the substitution of ct states reflecting spiral turns.
13.
Stacking of prior states
to make a current state so that information builds according to the F-series
methodology so that each universe is made up of the prior two universe solution
which preserves history and perspective and position based on the order of the
sequential solutions and the relative offsets of those solutions for any given value of x.
14.
Time and dimensional
characteristics of higher ct states (ct2-photon, 3-wave energy, 4-matter,
5-black hole material) are based on relative changes to space (ct1) and also relative to
each other.
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