Author(s)

Stanisław Olszewski

Institute of Physical Chemistry, Polish Academy of Sciences, Warsaw, Poland.

An attempt to obtain a new theoretical derivation of the size of the electron microparticle has been done. To this purpose first the Maxwell equation for the electron current has been examined for the case of the one-electron current present in the Bohr model of the hydrogen atom. It has been shown that the equation is satisfied on condition that the microstructure properties of the electron particle are taken into account. In the next step, the quanta of the magnetic field characteristic for the Bohr atom and the electron time periods specific for the electron current along the orbits were substituted in place of parameters entering the classical Oersted equation. This gives an expression for the cross-section radius of the orbits not much different than results for the radius of the electron microparticle obtained in a former electron theory

Cross-Section Area of the Electron Orbits and the Radius of the Electron Microparticle, Hydrogen Atom, Oersted Equation

Olszewski, S. (2016) Size of the Electron Microparticle Calculated from the Oersted Law. Journal of Modern Physics, 7, 1297-1303. doi: 10.4236/jmp.2016.711114.