Sunday, April 13, 2014

Super Shannon, proton stability and galactic order

The proton is too stable. If that is true then the vacuum has figured out how to move up scale. Look at the integers in multiples:
 (3/2)**108 has an error of 9E-5
(3/2)**216 has an error of 1.8E-4
(3/2)**324 .. 2.7E-4
 (3/2)**432 .. 3.7E-4
 (3/2)**540 .. 4.5E-4
Beyond that my spreadsheet is in error, I am sure. This might get us barely into the galactic scale.

These protons are released in free space.  They mix with these tentative galactic fields having huge standing waves.  They teeny tiny null spots use these protons to re-group, and get more stability.  The two; 1) large galactic wave phenomena and 2) long lived protons are related, I know.

It carries the counting system upscale, like super symmetry, or space time expansions. But it has to be a simple mechanism, something a dumb vacuum would naturally utilize.

These things hang around planets and the Sun, I presume, and allow gravity to count small quantizations in fractions. But they have a limit, the error increases about 1E-4 for each fraction. Hence, my universal integer has a decimal point at the zero order, and continues counting by (2/3)**N, until the error is too great.  It looks like a limited fraction that adds about 21 orders or so to my counting system.  They appear in sets of 1,2,3,4...; so if the limit is 20 digits of fraction, that is (20*2)/2 or about 200, the limit of the size of an atom.




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