You just have to put up with this every once in a while. It's rare enough
The concepts of NLC are independent of any
specific proof. The limited value of the intersecting spiral model
lies in using the principles to provide a possible explanation of the nature of
combinations of information and to show how expanded information may both result
in compression and may expand out indefinitely in a simple model algorithm that
arises from a minimum amount of information vibrating between two states. It is a bonus that this particular model is
consistent with curved features of gravity, the spiral function of collapsing
gravitational fields which are predicted by the theory to the force perceived
by information linearity.
This does not mean that this model plays
in role in nature, only that some model is required as indicated above for
explaining unique NLC operations. These
operations are especially compression associated with information theory.
Intersecting spirals provides a fairly
consistent model tending towards observed phenomena as has been observed in the
past with non-intersecting logarithmic spirals.
As will be seen from the lengthy
discussion of the drawings to follow it is easy to tie intersecting F-series
spiral theory in with information theory. It is also easy to see how a
relatively simple system can increase exponentially (2^n) in complexity with
some rather simple foundations.
The first drawing shows intersecting
spirals and after each intersection, the change in either spiral is shown.
Depending on how much information is
involved, these spirals can be considered as tubes of information. The way the information is compressed
involves algorithms that lock spirals together off of one another, one spiral
being added to another and then another to that. The movement relative to any single
coordinate (spiral) is seen to include the movement of all “carried spirals”
and the sum of all change of any group of spirals over any period of time is
believed to remain constant although the relative movement of one spiral to
others must be variable to allow for the perception of time.
Some spirals, such as the primary spiral, may
remain independent of the others since any spiral need not carry information
but need only be part of the overall algorithm allowing the information to be
expressed as we observe any quantum moment and allowing information to change
in the way that we perceive time from one fixed quantum moment to the next.
We are only at the very fringes of a very
complex model, but to simplify this analysis we're going to deal with a very
simple model, a 4 coordinate spiral intersecting with a one coordinate model.
While this 4 coordinate model may give us
a view of the universe intersecting with space that matter exists in, our part
of the universe, the complexity of the model described previously, allowing for
many intersections before compression states are possible (which can help
explain the failure of expected results from straight information theory) before
you get the result where we can experience time and space.
Indeed
while matter in its most basic embodiment shown in these drawings might exist
in theory, the complex forms of matter which we experience and which allow us
to live, indeed the complex types of energy we perceive, may only be possible
in a ct5 or ct6 environment which environments may be required for sufficient
compression for star systems to form, and sufficient concentrations of matter
and energy for more than pre-quark information systems to be possible.
It
must be understood that this is information and not matter. You can have bits and pieces of a movie,
scenes, cameras, electrical power, etc, but a huge concentration, a huge amount
of order is required to turn it into a movie and our study of the universe and
our place in it shows that we are the result of orders of magnitude much
greater than can be accounted for from a single star. Indeed all of our heavy matter states, the
heavy metals even in pre NLC theories must come from long dead stars, the dust
of which allows for our more complex systems.
This is predicted in NLC, successive big bangs, each more compressed
than the last. This is suggested by the
intersecting spiral model.
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