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Saturday, February 11, 2017

AuT Grant pp 11

Life is not a simple thing.  It has been, in the past both more complicated and less.  It reflects the underlying universe.  It is occasionally more simple than more complicated but it is headed both toward complete chaos and when the chaos reaches a crescendo perhaps it will disappear completely.

17.      Linear vs Curves, The universe is made up of linear algorithm solutions.  Curves appear from averaging solutions of offset intersecting linear algorithms.  
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18.      Pi is defined as a converging series, but it can be solved for any location and any value of x in AuT because the limit on the total amount of information in the universe is the limit to how far the series must be solved after which the continuing solution is irrelevant.

19.      The universe has no curves.  For the inflection point of the “most recent” big bang, a curve works better for a big bang type result.  The linear F-series works better to define the period of overlap and the resulting amount of compression/capacitance and decompression/discharge yielding big bang inflection points and big contraction inflection points.  The gradual change in inflection points between multiple spirals (the actual number is comprehensible mathematically and is calculated in the book, but the number is very large equal to the total quantum bits in the universe at any quantum point or for any value of x) yields the illusory curve of space time so the combination of the two (linear and average linear to arrive at curvature with space) provides a mechanism to suit giving linear solutions a curved appearance, but only to the point where pi is no longer solved.   (Curved space-time) It does show how a series of offset linear spirals may be solved at a point (at the bottom) giving the gradual impression of pi defined by a converging series.  While this picture represents “different” ct states converging, it is likely that the same convergence occurs with every single quantum point of, for example space.  Convergence occurs with every single quantum point of, for example space.  The “distance” we experience of space would be a function of where they come in on the curve.  The fact that the “separationSeparation” is on the scale of 10^-39th (the minimum value of time as we experience it) would make the separation too small for us to observe and despite this easily visualized separation (because there are so few points shown converging) the result is the “feel” of continuous space and curvature.



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