Thomas L.H., 1926, The Motion of the Spinning Electron , Nature 117 , 514. ADSL. H. Thomas, Nature 117 (2945), 514 (1926).L. H. Thomas, “The motion of the spinning electron,” Nature 117 (2945), 514 (1926); “The kinematics of an electron with an axis,” Philos. Mag. ...
One of the most satisfactory picture of spinning particles is the Barut-Zanghi (BZ) classical theory for the relativistic electron, that relates the electron spin to the so-called zitterbewegung (zbw). The BZ motion equations constituted the starting point for two recent works about spin and ele...
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Wentzel introduces into the calculations a force 1/c(μ[vX]) (μ = magnetic moment of spinning electron, v = velocity, X = electric field) the exact analogy of the force e[vH] on a moving electric charge in a magnetic field.doi:10.1038/118263b0Jackson, L. C...
Higher order corrections to magnetic moment and g-factor are used to describe more accurate and a generalised form of compos-ite radius. Depending on the generalised composite radius the helical model of electron is developed which is a mod-ified relativistic spinning sphere model but with slightly...
It is shown that the mass of the electron could be conceived as the energy associated with its spinning motion and the angular velocity is such that the linear velocities at the surface exceed the velocity of light; this in fact accounts for its stability against the centrifugal forces in the...
electrodynamical properties without and with the electron spinElectrodynamics of the one-electron currents due to the circular orbital motion of the electron particle in the hydrogen atom has been examined. The motion is assumed to be induced by the time change of the magnetic field in the atom....
intrinsic magnetism, like a tiny bar magnet. Scientists call this "electron spin"—themagnetic momentassociated with each electron—because each electron is a negatively charged particle that behaves as though it were rapidly spinning, and it is this effective motion that gives rise to the ...
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