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Maxwell Equations deriving the Dirac Equation Chapt15.37 base equation of all physics is Area = LxW from Maxwell Equations #1134 New Physics #1254 ATOM TOTALITY 5th ed
Jan 4, 2013 6:02 PM
negative sign Re: Maxwell Equations deriving the Dirac Equation Chapt15.37 base equation of all physics is Area = LxW from Maxwell Equations #1136 New Physics #1256 ATOM TOTALITY 5th ed
Jan 4, 2013 2:20 PM
On Jan 4, 1:28 am, Archimedes Plutonium <plutonium.archime...@gmail.com> wrote: > Alright, these are the 4 symmetrical Maxwell Equations with magnetic > monopoles: > > div*E = r_E > div*B = r_B > - curlxE = dB + J_B > curlxB = dE + J_E > > Now to derive the Dirac Equation from the Maxwell Equations we add the > lot together: > > div*E = r_E > div*B = r_B > - curlxE = dB + J_B > curlxB = dE + J_E > ________________ > > div*E + div*B + (-1)curlxE + curlxB = r_E + r_B + dB + dE + J_E + J_B > > Now Wikipedia has a good description of how Dirac derived his famous > equation which gives this: > > (Ad_x + Bd_y + Cd_z + (i/c)Dd_t - mc/h) p = 0 > > So how is the above summation of Maxwell Equations that of a > generalized Dirac Equation? > > Well, the four terms of div and curl are the A,B,C,D terms. And the > right side of the equation can all be > conglomerated into one term and the negative sign in the Faraday law > can turn that right side into the negative sign. >
Now one item that tells me I am on the correct path, in that the Maxwell Equations are the ultimate equations of physics and that they can derive the Dirac Equation, so that the Maxwell Equations are a far far more larger set of generalized equations than the Dirac Equation, is that not only do they have more terms and thus cover more physics, but that the Dirac Equation has one negative sign. The Maxwell Equations, because of the Faraday Law and its consequent Lenz's law has one negative sign. The signs cannot be manipulated or tampered with.
So that if the Dirac Equation is a minor equation of the Generalized Maxwell Equations, there needs to be one and only one negative sign.
And the above shows us that both the Maxwell equations and the Dirac equation have one negative signed term.
Now the Generalized Maxwell Equations have far more terms and one reason being is that the Maxwell Equations require the photon to be a Double Transverse Wave, not a single transverse wave that Dirac was under the impression for the photon.
If Dirac had known by 1930 that the photon has to be a Double Transverse wave, he would have looked to correct his "Dirac Equation".
Google's New-Newsgroups censors AP posts and halted a proper archiving of author, but Drexel's Math Forum does not and my posts?in archive form is seen here: