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The Zitter Model of the Electron interprets Zitterbewegung as a real internal motion of the electron at the speed of light, giving rise to its spin and magnetic moment. Based on this model and relying solely on four basic assumptions, we have derived numerous properties of the electron directly from its internal structure, including the de Broglie frequency, magnetic and angular momentum, Compton wavelength, the quantum magnetic flux, the quantum Hall resistance, the Lorentz factor, and the Schwinger critical field limits. By introducing a fifth assumption (a secondary helical motion), we derived the amplitude of this motion and predicted an anomalous magnetic moment with a g-factor of 1.0011607, obtained purely from geometric considerations, without any numerical fitting or free parameters.
