BTW, Before Jones throws a temper tantrum on why Like Charges
Can Attract, check out the attraction between like-charge particles
moving near c, (Relativistic Electrodynamics). Then argue. :-)
Fred
----- Original Message -----From: Frederick SparberTo: vortex-lSent: 3/24/2006 2:58:48 PMSubject: Re: Electrogravity From Accelerated B FieldsPosted earlier:>> The Displacement Current in any particle I = C *dV/dt where C = eo * wavelength (hc/E)> sets up an enormous B field.> Another approach is I = q*f where f = c/wavelength = 19.7 amperes for the electron> and 12,056 amperes for each of the three "quarks" in the proton.>> R = wavelength/2(pi) 3.86e-13 meters & 6.3e-16 meters for the radius of> the electron and each of the 3 discs (quarks) stacked side-by-side in the proton> 2 up or plus cw and 1 minus ccw giving an enormous "solenoid-like B field.>> This GSU interactive calculator will give you the value of the B field s.> and total spin mcr = h/2(pi) will give acceleration c^/r>The square root of the ratio of the electrostatic force Fes = kq^2/R^2 = 2.30e-28 nt at 1.0 meterto the gravitational force Fg = 6.67e-11 m^2 = 5.52e-71 for two electron massesat 1.0 meter., ie., = square root of 4.17e42 =2.04e21 is the relativistic gammaof the accelerated B field of the electron which results in a time-dilated charge"hypocharge" (**q) = q/gamma = 1.6e-19/2.04e21 = 7.834e-41 coulombs.OTOH since it is apparent that charge q is a result of EM Field "oscillations",each of the three quarks making up the proton are time-dilated bythe square root of Fes/Fg = (2.30e-28/2.04e-65)^1/2 = 3.35e18thus a "hypocharge" (*q) = 1.6e-19/(3.35e18) = 4.76e-38 coulombs.Since there are 1/(5.5e-28 )= 1.82e27 quarks/kilogram ,each with hypocharge 4.76e-38coulombs the Electrogravity Force = 9.0e9(*q1x *q2/R^2 = 6.67e-11 newtons forcebetween them at 1.0 meter separation Same as conventional Fg).OTOH, If one can develop a hypocharge from a rotating (accelerated B Field)that can couple to that of the earth....?Fred
