TITLE:
The de Broglie Waves and Joule-Lenz Law Applied in Examining the Electron Transitions in Small Quantum Systems
AUTHORS:
Stanislaw Olszewski
KEYWORDS:
The de Broglie Waves, Specific Heat, and Energy as Well as Entropy Transfer in Small Quantum Systems, Time Interval of the Electron Transition Associated with Parameters of the Classical Electrodynamics
JOURNAL NAME:
Journal of Modern Physics,
Vol.10 No.2,
February
27,
2019
ABSTRACT: A transformation of the electron states—say those enclosed in a potential box—into the de Broglie waves done in the paper, enabled us to calculate the energy change between two quantum levels as a function of the specific heat and difference of the temperature between the states. In consequence, the energy difference and that of entropy between the levels could be examined in terms of the appropriate classical parameters. In the next step, the time interval necessary for the electron transition between the levels could be associated with the classical electrodynamical parameters like the electric resistance and capacitance connected with the temporary formation of the electric cell in course of the transition. The parameters characterizing the mechanical inertia of the electron were next used as a check of the electrodynamical formulae referring to transition.