aut-nomenclature

This was supposed to be its own chapter but it ended up as following the introduction which is appropriate if accidental.
It's also not complete.  The new nomenclature.
You can see this much and a lot more in the free look into the book on kindle.  I suppose the question is why would you?
Ok, why all the pictures?  For some reason you can now post pictures directly into google blogging.  When did that happen?  Go figure.
It is, what it is.

https://www.amazon.com/dp/B01N5NEQ10


Nomenclature: The nomenclature reflects the ongoing development.  Early in the process “clock time” states which might be better described as information states were used to designate the various states that we know as space, photonic energy, wave energy, matter and black hole material.  These are called, respectively ct1-5.  We see photons and wave energies as “energetic clock time states” only because our ct state (ct4) changes slower relative to those relative to ct1.

Standard Clock time, SCT or time is what we experience on a watch and which is subject to time dilation and which is typically called “time”.  I apologize for the confusion.  SCT is largely irrelevant to the underlying algorithms but remains one of the most important features of the model.

X or Q is primarily used to define the single variable defining change and quantum instants are changes in x from one number to the next (1,2,3,etc).  Because of Scientific nomenclature, x is often used for other purposes in this book, hence the attempt to change it to Q in the text.

Quantum Fibonacci Spirals or F-series spirals or F-spirals provided the best model for defining the relative changes from ct1 (space) to ct5 (black holes) consistent with observed exponential compression.   In addition, F-Sprial mathematics provides a mechanism to maintain history in a quantum moment universe. 

Carriers refers to individual spirals that are intersected by other spirals   Carrier states, spiral turns refers the F-series changes in length between two values of X for an F-series.  Quantum state moments or Quantum lengths refers to the individual changes between the  carrier states.  By way of example in the F-series 2,3,5,8,13 there is a carrier state between 8 and 13 when a single change, from 8 to 13 occurs.  However, between 8 and 13 there are 5 quantum state moments.  This relationship is critical to the creation of space time, relative time and velocity changes. In this way, dimension, velocity and time (standard clock time) function based on this relative change between clock times ct1 and higher clock time states. By way of example, light speed represents one ct1 change per 256 ct1 states “compressed” or “carried” along quantum state moments between spiral turns of a carrier ct1 state.  The mathematical solution or algorithm solution for the 256 states aligned by one ct1 carrier define a quantum photon or ct1.  At first glance it appears that the one ct1 carrier state is added to 255 “carried” states to reach the 256 magic number although other solutions are suggested by the mesh created when higher states are formed.

MODEL: It has been determined that ct states are information states that define the relationships between non-dimensional, time independent space (ct1) and higher information states.  Since ct3 and ct2 states “move” relative to ct1 it was determined that they “aged” relative to a “carrier” formed by stacking successive ct states in a fashion that changed the relative movement.  Aging and velocity are known to be interchangeable via time dilation.  Aging is actually a “slowing” of the rate of change of information so that all ct5 states would age faster than ct4 states and all ct5 states would change slower than ct4 states, for example. 

Velocity and time dilation are directly related through this exchange of ct1 states which for ct1 occur at the rate of one every quantum instant Q where a quantum instant is a quantum change in the single variable Q.  For higher ct states (ct4, particularly) the number of exchanges of ct1 for each ct4 is radically higher (specifics follow) and this means that fewer changes per quantum instant slow down the velocity and increase “aging” defined as movement along a carrier more than one quantum state moment instead of exchanging ct1 states.  Minimum speed changes per quantum instant are a part of the conclusion and these are defined in detail below.

For ct4, matter, Time dilation results from moving along quantum points in the ct3 carrier between F-series (Fibonacci series) turns.

Compression and decompression refers to the tendency of ct states to form carriers.  The F-series spirals move through compression and decompression cycles which result in the stacking of time (ct) states or the unstacking of time (ct) states. This allows for a solution that we experience as either time dilation or velocity.  The cycle change can occur at every “Turn” or it can occur according to a different model suggested by intersecting spirals.  Two intersecting F-series spirals form a pair which define solutions which includes a “neutral period” between compression and decompression cycles.  For many reasons, including the “neutral period” between ct1 states (0,1,1,0,1,1), quantum entanglement, and logical origination it continues to be considered a valid model for investigation.  Compression and decompression are reflected in the expansion and contraction of the universe at inflection points.

          Ct1 (and hence higher states) are non-dimensional logical solutions (yes/no, plus/minus, 1/-1).  Distance and dimension are only relative changes between different ct states.  Forces reflect only the exponentially higher relative changes between higher (ct2 and higher) information states.  Gravity is only linearity of ct1 states expressed relative to higher ct states.  The perception of history is preserved in quantum moments by having the current quantum moment made from the stacking of prior quantum moments which is a result of compression.

          The best known example of "compression/decompression" is recognized by the equation as e=mc^2 at the ct3-ct4 interface.  This is not a base 10 equation which would fail at the ct4-ct5 interface (matter to black holes).  The more precise equation is Ctn=Geo(F(n)^2^n.  This equation is explained in detail below but the Geo is an evolving definition of pi which is certain for any set of points with a value of x, F(n) is the Fibonacci number n+(n-1)+(n-2).  If you examine this number in terms of scale for black holes you will get a confirming result (16^16 times the mass of the minimum ct4/matter state).   By combining the F-series model with the information model, a satisfactory explanation is obtained for the origin of the universe and quantum phenomena from a non-dimensional origin.