This chart lays out the basic scale of compression and decompression witnessed and how it corresponds to place and dimension.
https://soundcloud.com/greg-friedlander/autslide5
There is an awful lot going on in the next slide. So much so that I decided to take a serious look at updating book 3 to bring it in line with the most recent advances in AuT and the slide show before I tackle the one that deals with this deceptively simple drawing:
1) Information arms reflect alignment without so much intervening underlying un-aligned lower information states to prevent alignment.
2. An information arm can be defined as: a) aligned states of the "next lower information state" (nlis) b) a "specific low number" (SLN) of intervening "second lower information states" (2lis).
3) The result of information arms is the f-series compression of the next lower information state (nlis)
4) Each information arm holds up to 2f(n) of the next lower information state.
5) The number of information arms is 2^n
6) The intervening next lower information states and all "even lower information states" are folded within the information arm.
The example above shows the information arms for ct2. There are 2^2 information arms or 4 information arms. Each of these information arms can hold 2f(n) or 4 of the next lower information state represented by the next lower arm. The first arm can hold 4ct1 states, the second arm 4*4=16 of the ct1 states (or 4 of the ct2 first arms states) and so on to give 256. It remains possible that these information states are spread out equally over the information arms, but the electron-proton model for ct4 neutrons indicates that it is less likely and that the electron, by way of example, has the lower order number of ct3 wave states while the remaining proton arms have multiples of these higher states in the preferred analysis.
Ct2 states exhibit charge. One mechanism for this charge is shown here in the form of unbalanced alignment between the underlying ct1 states. In this example, an anti-photon would be unbalanced with the opposite charge.
And last, but certainly not least, here is the updated information in Book 3, third edition (unpublished) bringing book 3 into alignment with the first slide.
1.
Slide 1 A thermodynamic free
universe
AuT is non-traditional
information theory but traditional information theory has features that speak
to AuT.
1.
There is no “size” in
AuT because dimension is an effect
and not a property. Measurable dimension
appears only after space is folded to make what we would call 1 dimensional photonic
compression or ct2 (ct1 is space).
2.
3 dimensions only exist
in the presence of ct4 compression, the existence of ct4 information arms.
3.
CT states are balanced
states of compression and unstable transitional states bridge the gaps between
ct states.
4.
The standard model of
quarks and the like, is not part of AuT and, while not politically correct, is
considered ridiculous by comparison.
5.
Neutrons, for example, are
a stable ct4 state. The electron-proton
pair are a largely stable transitional state being effectively a ct3 cloud
between partially and fully populated ct4 arms.
6.
Molecules, for example,
are largely stable ct4-ct5 transition states tied to the effects of ct4 in the
presence of ct5 taking on a ct5 level of compression while maintaining their
ct4 properties in terms of ct3 exchange rates.
7.
Trying to use “mass” to
determine concentration is confusing because photons are said to have a rest
mass of zero. Likewise, electrons as
seen from a pre-AuT analysis have substantial momentum that is a part of the
overall mass of what is called the electron cloud or bundle associated with the
proton.
8.
Rest mass is not a thing
since at any quantum moment, all features of the universe are unmoving. Mass and momentum are features of time and time
is an effect of changes within the electron cloud in the ct3-ct4 transition. Mass and momentum and time are as inaccurate as
saying “space is empty.” Space is
neither volume nor empty, but merely is a math solution providing both a
positive or negative value of a determined number of changes in x and a solution
order.
9.
All forms of force and
mass and dimension are merely different states of space although space also has
predecessor elements
10. All elements change at the same rate, the quantum
change of x and all change together.
However, because many of the changes do not change the positive or
negative value (only getting closer to the change in value), there are
inflection points that we would perceive as change only when that number of
changes corresponding to the fpix value occurs and then suddenly and all at
once.
11. Nevertheless, the exchange rate at which space
and Photons interact can be tied to light speed at a maximum rate of 1:256.
12. The expanding Velocity of light appears to be
tied to the release of ct1 states from ct2 states at this rate. A contracting velocity of light appears to be
tied to the compression of ct1 states into ct2 states.
13. Changes over multiple values of x are
non-quantum results and express comparative positions and states and requires removing
or injecting ct1 changes into a compressed information states to arrive at the
next quantum result.
14. Force: Photons (ct2) may be electromagnetic stable
ct2 states, but modeling indicates that EM force is the loading or unloading of
ct1 states onto ct2 information arms over values of x at the scales of time
changes.
15. It is
misleading to think of time and x as directly related. X can change without generating time or a
change in time. However, once time exists,
it is affected by localized changes in ct1 which gives rise to time dilation which
is dealt with specifically in the next slide show and in later chapters of this
book.
16. Force: Stars increase ct4 compression as part of
the transition from ct4 to ct5 states. An
increase in sharing of ct4 states along ct5 carrier arms is perceived as fusion. The ct5 strong force state can be created only
in the presence of ct5 carrier arms compression.
17. Force: The weak force can be viewed as the force
presented by ct4 carrier arm population or depopulation. This strong and weak
force result distinguishes AuT from the Standard Model. Since the SM of quarks and other non-quantum
features assigns to these forces (strong and weak) a non-carrier arm feature,
the Standard Model is considered in error.
18. Force: Fusion and Fission can occur with ct4
states alone, but molecular (as opposed to atomic) features can only exist in
the presence of ct5 carrier arm solutions.
Neutrons can form in the presence of ct4 solutions only, atoms of more
than proton or neutron require a ct5 carrier arm solution.
19. Dimension: Ct1 (space) is predicted to increase
in quantity based on the change in the value of x, one extra ct1 state for each
change in x. It remains possible that
space increases at a slower pace. CT1 is
considered to have a minimum value of -3, although a minimum value of 1 is just
as likely.
20. Dimension: F-series exponential compression is
reflected not with more space but with a higher number of coordinates changing
at once (1,11,111,etc.). Compression
increases the entrapment of ct1 states and thereby eliminates velocity. When higher ct states decompress, ct1 states
are released with increases in velocities over multiple quantum solutions.
21. The Spirals idea that was initially carried over
of substitution ct1 states is abandoned in the new view of compressed space in
AuT.
22. Einstein already proved that neutrons were
interchangeable with energy. There are
lingual mistakes, for example, the “destruction” of information which doesn’t
happen. In a single variable universe of
the type we inhabit, if you destroy anything, it’s the amount of compression or
decompression.
23. Electrons do not move at the speed of light in a
vacuum because for electrons, a ct3-ct4 transition state, to move at all they
most move based on a release of ct1 from ct2 states. An electron, in terms of place, looks like
this: 1234 and velocity would change on a quantum level from this 1234 to a
1233 type transition meaning that very little “area” of the electron is subject
to rendering velocity at any point in time since only the ct2 states can yield
velocity while the ct3 states (the 2 place) can only break down to ct2 and not
directly to velocity.
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