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Natural Science Forum / Physics / Particle Physics / July 2005Mass Compton wavelength constant.
I just noticed the following relationships. p / f = m.lC = kmC where p is the momentum f is the frequency m is the mass lC is the Compton wavelength kmC is the constant of proportionality so m = kmC / lC and p = kmC.f The mass of a particle is inversely proportional to its Compton wavelength. The momentum of a particle is proportional to its frequency. I was just wondering if the constant, kmC has been named because I would like more info on this. Does anyone know where I could get more info on this? >I just noticed the following relationships. > [quoted text clipped - 23 lines] >would like more info on this. Does anyone know where I could get more >info on this? kmC = h/c. There is no constant and the relationship isn't interesting. John Polasek http://www.dualspace.net > >I just noticed the following relationships. > > [quoted text clipped - 27 lines] > John Polasek > http://www.dualspace.net h = kmC.c m = kmC/lC p = kmC.f Planck's constant is directly proportional to the speed of light in a vacuum. Mass is inversely proportional to the Compton wavelength. Momentum is directly proportional to frequency. The constant of proportionality, kmC, is about 2.2102188e-42 kg.m Why do you think kmC is not a constant? What would a particle behave like if its mass was: A) greater than its Compton wavelength B) equal to its Compton wavelength C) less than its Compton wavelength This is interesting to me, and I would like to know more about this. This proves that the Compton wavelength for one Planck mass is not equal to the Planck length, but equal to the Planck length times 2 pi. ...just so you will know, this constant: [ 2.2 x 10^-42 kilogram-meters ] is from "Reality Physics" and is called: "Jeff's Constant" and describes the interaction of sub-atomic particles (Fermions) with the "active" inertial reference background of the universe. This is shown on page 69 of the book entitled: "FROZEN LIGHT!", as described on the webaite: > www.realityphysics.com < Here is the constant: "J" as it represented in the book: J = 2.2 x 10^-42 kg.-m. = h / c = p / f = m c / f = E / a = E m / F = m^2 c^2 / F = F / f^2 = F c^2 / a^2 where: J = Jeff's Constant (The Mass-Action Constant of the universe) c = the speed of light (or time) h = Plank's Constant p = momentum f = frequency m = mass E = energy a = centrifugal acceleration F = force all the best, Jeff Lee CENTER FOR REALITY PHYSICS > ...just so you will know, this constant: [ 2.2 x 10^-42 kilogram-meters > ] is from "Reality Physics" and is called: "Jeff's Constant" and [quoted text clipped - 23 lines] > > Jeff Lee CENTER FOR REALITY PHYSICS You may be interested in the following: mlC = mx * lCx h = mx * (lCx * 2 * pi) * c hbar = mx * lCx * c hdot = mx * (lCx/2) * c muB = Qp * (lCe/2) * c muN = Qp * (lCp/2) * c muE = Qp * (lCe/2) * c * gc where, mx is the mass lCx is the Compton wavelength divided 2 pi mlC is the mass-length constant. h is Planck's constant hbar is Planck's constant divided by 2 pi hdot is hbar divided by 2 muB is the Bohr magneton muN is the nuclear magneton muE is the electron magnetic moment Qp is the charge of the positron and proton gc is the correction terms applied to the gyromagnetic ration of the electron. |
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