One can have two views about how the universe cycles. One theory says the phase packed it all counting up from the smallest (3/2) quant, then found the phase imbalance and busted. The other theory says that phase started with a complete packing but something introduce some loose Nulls, and then it broke down, counting down. Counting up or counting down, two ways to look.
My feeling is that phase counts up from the bottom, it immediately finds the smallest 3/2, then they combine to (3/2)*2, and on up. Did the universe start as a perfect packing or start as a large disturbance? My colliditron will have up and down quantization modes built in, we can try both.
My current view, which changes daily, is that the universe is moving excess phase from one point of compaction to another. Each time the phase enters a region, the packed Nulls are exchanged and we get apparent motion of the packed Nulls back toward the direction at which came the light. Then we get an order imbalance at these compaction points, but the quarks remain compact, the lower orders (magnetic down thru gravity) re-organize. As this process continues, the curvature of the vacuum increases toward the universe center of universe mass. Excess Nulls would be continually pushed back to the BlackHoletron level, increasing the universe squeeze. We may or may not stabilize, I dunno.
Correction:
The last post mixed up null and phase, it is nulls which break Pauli exclusion that cause group separation, naturally. It seems the whole process is driven by the triplet nature of the vacuum, the smallest integer over which the vacuum can stabilize density (Plank), the Pauli exclusion, and Fibonacci sums (Speed of Light).
Uploading the spreadsheet
I use this blog for back up, and the time is coming. But the first uploads will not be complete. However, when I do upload, I will explain what is happening to the versions as they appear. The important mess I worked on was making the thing cycle along the sequence in order. Quantization constants are precomputed in the spreadsheet so they are always available. I do this for the driving force and for output digits.
No force is lost, the system builds unquantized force as they appear. There are unused quantization ratios which I am reserving as I expect we will find fractional quantization ratios for motion and charge. And the quantization macro drives the process, but has many modes for test, calibration and different trials. Everything is done in twos arithmetic, the conversion to qubit takes place when processing the digit values. I build two 108 and 91 bit integers (decimal version of course) which come back for each sequence point, and from that the output is displayed. The macros are in basic.
Will this build the periodic table?
It should. The sparsity between the proton and the electron is what makes the table, and that should fill in if enough force is applied. The quantizer will, at some point, find the only solution to the next mass is the electron with a free ranging wave digits. The orders seem divided in the current epoch between the quarks, getting the first 36 or so, then there is a huge gap up to magnetic of about 36 or so where multiple electrons can fit, then there is the remaining least significant bits to count up to black holes, from the magnetic. The gap between the proton and magnetic I estimated from relative mass of proton/electron and impedance of magnetic/ electron. It came to about 14 + 18. or 32.
The vacuum is a deep multiprocessing counter, counting everywhere. I think it counts naturally by 3/2, but with a large disturbance under compressive force, these rapidly combine at exponents of the 3/2. Then it reaches the Plank integer, nothing stabilizes to SHannon, and that would be the Higgs limit. I can test that theory by counting up, but having looked at the quantization ratios, I could tell that near the 108 level, Pauli is constantly broken.
If a huge compressive force is applied, then it should make the proton start, surrounded by the magnetic. Eventually a large enough compressive force will count the 108 sample sequence to all ones, the Black Hole. The compressive force is simply a large phase offset that is balanced.
Gravity
It is the residual phase left after mass quantization, charge and atomic kinetic energy. It should be accumulated and counted. I think that will work. Constructing the wave out of the digit sequences should show all the phase alignment, including gravity. In other words, the system grows the original group making the proton until it has some N dimensional group, N being the number of 'fields' needed to consume the applied force.
These numbers all seem to fit nicely, so far, to within 10e-4 of Plank.
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