There are numerous changes being made as the typographical errors and less than optimal language and even some historical inaccuracies are replaced in the first of the short books, currently at 20,000 words. It can be left at any length. I'm guessing that it should be close to 30,000 words (half novel length) but I'm also interested in getting this new, ground breaking introduction published or at least sent for publication before the 10th.
You might find the interest in the number of words misplaced and you would be right, but some measure has to be used in terms of how much to include in each of the several volumes that will make up the next edit.
The good news in terms of timing is that it is short and reflects repeated edits to other versions. This means that there is less to do. Whether I include the section on calculus or not will define how much delay there is. While it belongs in the first book,it is one of the sections that holds the most potential for change.
Even in the pre-calculus section there is a great deal to do, trying to give as much accuracy as possible means multiple edits and finding places where I glossed over changes, not intentionally but just based on the crush of events.
Even parts that have been published here, have been edited substantially. The nomenclature section is a good example where a great deal of correction and added terminology have been incorporated for the next publication.
Today is one of those awful travel days, up at 4 but I put in a couple of hours of work before the sun came up.
Broader Impacts :
The narrow and
immediate impact is to continue to define the fundamental structure of the universe
in more detail to show in broader mathematical terms what we observe. It has far reaching impacts in our ability to
manipulate time and space.
Societal relevant
outcomes include improved national security, increased economic competitiveness
of the United States and enhanced understanding of fundamental physics and
possibly opening up new frontiers for practical application of fundamental structure
of the universe to observed phenomena.
1.
Algorithm Universe Theory (AuT)- provides a
mechanism for the creation of space time from a non-dimensional (including
time) framework which is predictive of large and small scale observations. This non-dimensional frame work is referred
to as a single variable algorithm where quantum changes in this single variable
allow for the creation of space and time as we experience them. It is the most fundamental model of the Universe
written. It accurately predicts observed
phenomena, it predates numerous “observations” and it allows for a better
understanding of phenomena that are unexplained by other theories.
2.
AuT gives a better understanding of the universe
and provides guidance in what to look for in sub-atomic and astronomical
observations. It explains minimum size,
force (without false leads like bozons), black holes, expansion and contraction
of the universe and time dilation by way of example. Being accurate, it provides accurate
explanations. The universe being
complex, it requires the analysis of additional data to be complete.
3.
The promise of AuT is not only theoretical, but
suggest practical applications. While it holds the more fanciful promise that
it could change matter to energy, light or even space, it will allow a better
understanding of gravity and thermodynamics.
AuT could provide a path to change the gravitational features leading to
attraction, for example making them repulsive instead. At the very least it is a quantum leap ahead
in the understanding of gravity and other forces.
4.
Since aging and entropy are shown in AuT to be a
relativistic and not absolute feature, materials science can be changed
significantly. These are just some of
the more extreme promises of a better understanding of AuT.
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