deriving speed of light out of raw pure math Chapt 19 #206; ATOM TOTALITY
in [Math]
|
Prev: proper analysis of Euclid's Infinitude of Primes rather than the botched job of Hardy/Woodgold and Mathematical Intelligencer #607 Correcting Math
Next: Haldeman-Ramanujan quintuplets
From: Archimedes Plutonium on 27 Jun 2010 16:54 Archimedes Plutonium wrote: > What a difference a shower can make on coming up with solutions. > Earlier tonight I was > gloomy at the deadend I was running into. But I managed to overcome > those pitfalls. > > I want two features for the speed of light and I feel with them, I am > on the path of truth. > (A) that the speed of light is a construction of the geometry of the > object. So that > for Earth, the speed of light is a singular light wave that travels up > and down each > meridian strip 1 km wide and thus 40,000km x 40,000 / 5,000 seconds = > 320,000km/sec > > (B) true for all figures, no matter the size, so long as the strip > width can accomodate the > geometric figure. > > So in this derivation of speed of light out of pure math, I want it so > that unless the method is > true then the laws of geometry is true. So that if the method is > untenable than also, geometry > falls, or geometry is not true. > > So the glitch earlier tonight was that Mars would not follow a N x N/ > (1/8N) as Earth followed > that rule. > > So I found a solution that would make the method universal method to > all geometry. > > Consider the Earth sphere and the Mars sphere and consider a > pseudosphere nested inside each. We do the strips in km width. So for > Earth we have 40,000km x 40,000 and for > Mars we have 21,300km x 21,300. Now the denominator is the time > parameter and here we > use the pseudosphere nested inside. For the Earth sphere, how many of > those km strips > can fit onto the surface of the pseudosphere? Certainly for Earth we > cannot fit 40,000 since > the pseudosphere narrows at the poles. I am guessing that 5,000 of > those strips fit onto > the pseudosphere and thus have the formula for speed of light as > 40,000km x 40,000/ > 5,000 seconds. > > Now for Mars we have 21,300km x 21,300 and for the pseudosphere > accomodating strips > of 1km width can only accomodate 1,500 of those strips because of the > narrowing poles. > So for Mars we have 21,300km x 21,300 / 1500 seconds. > > Before, I was thinking that the time in seconds comes from 1/8 the > circumference, but now > I see that the time factor comes from the Hyperbolic geometry > pseudosphere as to the amount of the strips that can fit onto its > surface. > > In this manner, I get the speed of light no matter what size of > sphere. > Alright, I am on a roll here now. I have the wind back of the sail. Let me remark on the history of these thoughts, for I want to remark how incredibly serendipity it was for the Earth sphere to have the numbers it has. That Earth has a circumference of 40,000km, just ideal to come up with the meridian strips to measure and to have 40,000km x 40,000 such strips. Then to see that 1/8 of 40,000 for the time measure to get 5,000 seconds. If we had lived on Mars, I would not have been able to progress on these ideas. Then I realized I had to be able to generalize this meridian strip concept to fit all sizes of spheres like the Mars sphere, so that meant the 1/8 circumference had to go. And what replaces it, is the concept that a Mars or Earth Sphere has nested inside itself a Hyperbolic geometry pseudosphere with its tapering off poles. The tapering off of the poles is important because although 40,000 km wide strips can fit upon the Earth sphere, that only 5,000 strips can fit on the nested pseudosphere, and that the number 5,000 seconds comes not from 1/8 circumference but comes from how many meridian strips fit onto the nested pseudosphere. So let me recap the two most important features or concepts to date on speed of light: (A) the speed of light is a light wave that creates or materializes the geometry of an object. So that when a light wave in an atom interacts with the electron from the proton, what is happening is that the light wave creates the geometry of the electron. In Faraday and Maxwell's time, they saw light as a disturbance in the EM field. I see that also, a disturbance, but I add onto that concept that the light wave goes out and creates the geometry of the object it is interacting with. Before the interaction of the proton with electron, the electron was in a uncollapsed wavefunction state of quantum mechanics. As the light wave interacts with the electron, it creates the geometry of the electron itself. (B) the speed of light is a fundamental constant of physics, to be sure, but in this derivation and program I am doing, I am pointing out that the speed of light is a fundamental constant of mathematics itself and that geometry cannot exist as we know it without the constant of the speed of light. It is a constant just as fundamental and important to geometry as is the constant of pi as that of circumference divided by diameter. So the speed of light as a mathematics constant is Meridian strips x number of strips divided by the number of meridian strips fitted on associated pseudosphere is the speed of light constant. Now I do not throw away the idea of 1/8 having a role in this, because the 5f orbital of plutonium atom has 8 lobes and I have a hunch that those 8 lobes also confirms the speed of light constant for the Schrodinger Equation. Archimedes Plutonium http://www.iw.net/~a_plutonium/ whole entire Universe is just one big atom where dots of the electron-dot-cloud are galaxies |