Can't avoid the topic any more. I always wanted to get with just the absolute value of bandwidth, and ignore the phase shift across the spectrum. But it now matters because the bubbles solved a cubic root with complex numbers, that means phase delay, and that means charge.
A minimum quant of Phi^17 is one wave of phase delay in the electron, compared to the quarks (or is it 2/3 a wave as Mr. Planck claims). It is the length of the spectrum of the orbitals. It must be both the fundamental unit of mass and the unit of charge. Phase delay is the quants counting with relative delay between them. That is how the Higgs worked, making a sphere slightly odd shaped is associated with charge and motion. Somehow they discovered that a sphere with different quants of the two phase types would be misshapen and move, move just fast enough to escape the phase balancing mechanism. The whole idea of a difference in the exchange delay between the two bubbles is what makes light work, it provides a line of symmetry.
Is the electron negative inside the sphere or outside?
They never said in physics class, they just tell me its negatively charged. I interpret that to mean that it looks, from the outside, like it has a surplus of negative bubbles (small bubbles?), so therefore, it must have a surplus of positive (big?) bubbles in side? No?
Anyway, these numbers need straightening. Phi^17 is very small relative to the center frequency. I have a scale factor to deal with, there is a limit on the size of anything counted, a kind of Planck. The very top of of the spectrum, Phi^N is the size of a quant, and that is huge, but that conforms to one cycle of a gamma ray, more or less, measured in seconds. I never figured out what a second was, in units of bubbles, but the inverse of that shouldn't be greater than Phi^17, think. That is only about one wave number at that level so still fits.
The rest mass of quarks is 20 times the mass of the electron, they say. And they hold about the same amount of charge. But in raw numbers, the electron and the gluon are about 10^19 bubbles apart, by subtraction. So, there is likely a rescaling going on, the first upgrade to quant size happened early, it happend just above the vacuum.
When I checked to see if Plank scaled the same as my two quant ratios, I noticed that my quant ratios counted Phi^18 many counts as Plank, which is a ratio. So this all fits.
And, when I scaled the longest wavelength that the physics have in their planck curve, and the shortest, at the end of my spectrum, they matched. So clearly we all think that bubbles are the right size, (physicists think space is flat). Thus something happened to change quant ratios at about quant Phi^17, definitely, a change which happened above the vacuum layer.
Physicists have the Plank charge at about 10 e-18. That is on the order of the raw difference between the gluon and the electron, on my chart. So, the 3500 bubbles, at Phi^17, is within range, that is 10e-18 seems to be one unit of Phi^17 things.
No comments:
Post a Comment