BDTH 8 how the quantum wave combines to become observed waves

Two days in a row without exercise.  What a tragedy!
I still have time to swim but I doubt I will adn tomorrow is not looking good for it.
I have lost focus.
I am watching smokelike clouds move low in the sky.  Bells are ringing in the distance, it is midway between hours.
I should exercise while I can, but I am at a low point for some reason so I will be satisfied with the walk I took and the stetches for my back, and this very weird progress that I have made, finally solving the last of the dual slit anomallies.

There is a bit of math, but it is only the combination of pre-changed ct4t6 states to get the wave qualities combining along t7 arms (and possibly those combining over t8, etc) but where you end up is weird enough and it is set out below.

I needed to do a set of drawings of how feynman particles work together and I have a series of old drawings leading to the new one which appears in this morass below, but even the new one suggests one that has not been drawn yet.
While you can say that this figure:

or these:

and even this one

teach how these work together.  It is noteworthy that the right hand side is the stick on which the t7 state is built, being an odd exponent.
Before we finish we need to look at another drawing which is the earlier version of this stripping process, but with less detail:

and it must be viewed in light of this one discussing the pre-time changes due to the rotation of ct6 states giving it the multiple location and multiple state features:

But even that is not enough, you really need to combine these plus the ct3-4 compression chart...
To get here:

58c shows how the observation of a wavelike photon (t6) can collapse a t7 wave (box) by removing and freezing the photon whose pre-time features combine with similar pre-time waves to form the observed wavelength and where the removal so destablizes the odd exponent t7 arm so as to destroy the strong wave form that is built with these shrodinger photons, thereby yielding the particulate form through observation.
and, of course, we are not done since up to t12 these wave based structures are possible in advance of the electron and it appears that because of the makeup of wve strucutres even post time structures like the neutron have wave qualities.

It is a very odd and not entirely simple process, but it is defined within the model, even suggested to be necessarily the result.

And on to the second footnote, of perhaps 5 or six.  I forget.

Footnote 2: Force Scales

The charts which follow cover the specific primary forces and their derivation as well as showing the relative ranges of each.  It is worth noting that the limited effect of time on gravity and electromagnetic features (features at the electron and lower) that these appear to have infinite range.  In fact, we observe “net” gravity for this reason.  This explains dark energy as the net folding of higher ct states to ct1 space.

The modeling using Gravity as 1, but you can also look at gravity the other way; Gravity 6x10^-39th range infinite.  Gravity has a lifespan defined by folding vs unfolding, but we only observe the net effect because the changes occur (1) outside of dimension (at least partially) and (2) in a pre-time environment.

Electro-mag 1/137 range infinite-Again, electromagnetic effects have finite life spans, but ct3 changes are essentially outside of time and even electrons are largely time independent changes because the dimensional changes giving rise to time are governed by polynomial approximation for the higher exponent time changes tend to hind the lower time changes although the relative speed of the electron to the photon largely reflect the increased effects of time.

It is worth a discussion of how billion-year-old photons reach the earth.  The amount of information in just the observed universe is close to 10^153 bits of information based on the universe being close to a single ct6 state. What this means is that the average lifespan of a change in the middle of the universe where we live may be on the scale of 10^100 changes in x. This would be 10^56 seconds, allowing for an extremely long lifespan for both gravity and photons, but still short enough so that the universe does not fill with light or gravity.

Weak: 10^-6 Range 10^-18:  The strength matches proton-wave phenomena applied to a ct5 matrix.  The force felt at electron-proton: range matches location as fully collapsed neutron.

Strong force: strength 1 range 10^-15. At first glance, the range seems like it should be closer than the collapsed neutron; but since this is only a partially compressed ct5 state, it is less compressed than the fully compressed ct4.  The Range matches partially collapsed black hole.

          There is at 3.6x10^90 an unobserved force/compression state that may exist in the presence or resulting from ct6 arm compression and which may play a role in massive black holes which would, in turn, suggest a ct6 transitional state of “atomic black holes.”

Note this list does not include the energy to mass scale; e=mc^2 or in terms of AuT 2(4)^2^4=10^16.

The e=mc^2 can be seen explosively as releasing ct3-4 transitional states upon achieving ct4 isolation surrounded by ct1 primarily thereby creating the next dimension.