Akronos Publishing Concord, ON, Canada www.aetherometry.com

The Electron Conduction Current

by Correa, Paulo N.; Correa, Alexandra N.; Askanas, Malgosia

Published in March 2026.     37 pages.

Aetherometric Theory of Synchronicity, Vol. 4

Monograph AS3-IV.4

Price:   US $40

ABSTRACT A novel and original analytical treatment of the electron conduction current and the ohmic heat it generates is proposed that substantially differs from that of electrodynamics (classical and modern) and modern thermodynamics. Using the electron as an example, the authors show every conduction current to be functionally identical with a longitudinally-acting electrodynamic force, and find a demonstrable helicoidal path for each charge that varies with potential and as a function of the magnetic wavespeed of the massbound charges. This applies to any conduction current. Based on this, the authors provide natural micro-current and micro-power computations for single conduction electrons, as well as their macroscopic counterparts. They contrast their analysis of ohmic heat dissipation with that of Kondepudi and Prigogine, whose shortcomings are noted. They find that micro-entropy functions can be ascertained for ohmic heat that are expressible per photon and per photon-emitting conduction electron. The macro-entropy function that results demonstrates the error of Prigogine's concept of an ongoing "entropy production" in the conduction current. In effect, barring an increase in resistance due to an increase in the conductor temperature, the macro-entropy itself does not change even if the conduction current were to be indefinitely sustained. Only the total heat evolved increases with total time of conduction.