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Monday, August 21, 2017

Aut and the Shift from non-dimensional to dimension to information based compression

It continues to boggle my mind that I don't get more comments.  Its like everyone is afraid to say that I have sent the emperor out with no clothes.  That is, of course, like something that I would do personally, so who knows.

This next post takes the information from the prior posts and lays it out in a simplfied fashion.  What it doesn't do is talk about how we can, presumably without a great deal of complexity, build those floating cars (or antimatter bombs if you would); but we'll get ot that in due time, although I'm a bit leery to cover something so destructive in a blog.  I like the idea of building floating cars, but knowing that a wreck in one might destroy the planet gives one pause.  Still, the theory looks good on paper and the process not overly complicated under the right circumstances (which don't occur on earth, thankfully).

For now, let's stick with the interesting theoretical ramifications.

Chapter 10 The shift from dimension to information

          So the suggestion, from observation of higher states, is that alignment occurs with negative to positive to start the compression based on the first linear solution changes which are not based on F-series, but are instead based on -1^n broadly.  The tendency of these to move together is gravity at the ct0-ct1 interface (when there is positive and negative) and when there is negative to negative it forms dark energy or antigravity.  These form a transitional f(n) state in the exponential equation which is brought out by a logarithmic function and acts as the f-series while the dual states of positive and negative provide an information based exponential arm system built on the first positive negative system because of positive and negative alignment as a requirement to compression.
       Mu mesons decay according to relativistic features based on their speed.  This should match the AuT methodology.  Pre-AuT math does not know how to deal with these transient Ct2 states, but AuT explains it perfectly and explains not only how they come to exist but how they transition to space.
          There remains a big question to address.  This question is the shift between quantum phenomena tied to -1^x plus 2x(-1)^x-1 to one tied to f(n)^2^(n^2).
          Higher state phenomena suggest that combinations above ct2 function by combining positive and negative results. Referring to Figure 2, you see ct1 states established as pairs and the pairs of pairs grouped together in subsequent ct states.
          Combining positive carrier results based on the -1^x pehnomena with negatives accomplishes two things. One: it  builds instability into the system which can become unstable as the underlying particles shift polarity forcing them apart.  This is necessary to get the compression/decompression features we observe.  (Note that two positives being interrupted as one turns negative could also achieve this function, but in that case it would not yield the observed phenomena).  Two: the other is that it gives a two state (positive and negative) system which allows the 2^n shift in ct state building which is present in all higher ct compression shifts beyond the ct0 to ct1 shift discussed in chapter 8.
          The shift is a ratio
          So the effective ratio is:
          N^(2n+1)/(n+1)^(2+1)
          This can also be written:
          n^(f(n))/((n+1)^(2+1)) for n=2
At the next change, this shifts back to an unraised function while the density increases:
          F(n)[constant]logn-3(log(n+1))=f(n)log(-2n)
          This in turn shifts according to the vibrational format to the first true informational format f(n)^(2^n).
          While the mathematics is somewhat challenging, the result, not cause, is that the positive and negative aspects of competing spirals are allowed to exist as quantum space-time informational results even though the underlying mathematics is tied to a converging offset infinite series (-1^x plus 2x(-1)^x-1) which does not have positive and negative matched features, but instead has unmatched features.

          For the underlying mathematics, the "top" arm is longer than the bottom arm.  Items 1 might be made of a single Fpluspix result, but by the 2 results, there are more than one Fpluspix so that you can have positive, negative and presumably, long periods of neutral results, which supports the original analysis and observations that the intersecting spiral model observed is at least partially valid despite the build out from non-spiral phenomena.

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