Good luck to me, but here it is:
1) Starting with the counts at Phi^17, begin using the Silver Ratio, the second Lagrange, and recompute the quants going up to Phi^107. Use the ratio p/q, you do not need the computed value of the Silver. Match the counts against the (3/2)^N series.
2) You will find, a) The peak of the proton will split into two symmetrical peaks splitting the Phi^91 point. This will happen at the electron Phi^75, and the Higgs Phi^107. That will be fermion spin showing up. It will be absolute value, as we have not carried the plus and minus shifts separately.
3) At about Phi^63 or so, you will find that the p/q accurately matches the accuracy of light. At that point, light bulbs will click in you head as you have discovered some theoretical particle, a particle with fermion spin but no charge.
4) Repeat the same procedure from that point, using those counts as the starting point, then bump up to the third Lagrange. Each of your previous will split into three, you will be creating all the orbital quants in their specific pattern.
This works because we are all sphere packers, the vacuum, the physicists, and Markov. This is not forever, above the physics level, ellipsoids began packing, because I still have five fingers.
How do we carry both phase and magnitude in p^3 + p^2 + p + n polynomial space? How about a compound Reimann space?
Make this thing do a second swirl on top of the first. Compound swirl, I think the bubbles do that.
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