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SIZE OF SPECIFIC ELECTRIC CHARGE CURRENT ELEMENT OF THE ELECTRIC CIRCUIT
Yury T. Aleksentsev, Moscow Technical University of Communications and Informatics, Moscow, Russia
Abstract
In the submitted article the concept of electric current of branches of an electric circuit which identification of properties is directed to a solution, designated in the title is considered. The analysis of conditions with which has to satisfy a concept of current at statement and to the solution of specific technical objectives in the course of the analysis and synthesis of electric circuits in the stationary and transitional modes and also, the analysis of a number of the experimental facts of the end 19 and the beginnings of 20 centuries spent, in due time, for the purpose of studying of initial representations to theories of electricity and creation of the first technical means with its application leads to the wording of the list of properties to which the concept of electric current has to correspond in order that the methodological support of the solution of technical tasks in the theory of electric circuits would be correct. Achievement of the specified result is a necessary condition for made in this article of a way of a solution designated in its name, at the same time, the electric circuit is represented in the routine way of the theory of electric circuits (combined heat and power plant), through space of paths of course of current. On the basis of set of properties which determined electric current the conclusion is drawn that the electron is not a current element, the source transferring electric energy on loading. There is no experimental information which, certainly, would approve an electron role in this quality. Conclusion allows to raise a question of a possibility of consideration for a role of an element of the electric current satisfying to the received list of properties, a new particle with positive charge of qx and mass of mx. Determination of size of the relation of qx/mx — a specific charge — is carried out, attracting idea of combined heat and power plant of a current resonance in parallel R, L, the C contour. Having transferred these representations to a resonance in an open electrical system, the mathematical model of process of interaction of the inductive and capacitor currents is formulated. On the basis of this model, within classical physics, it is received, value of the relation of a charge of a current element to its weight. The numerical value of this relation is equal to the speed of course of electric current in the conductor.
Keywords: electric circuit, element of electric current, charge and mass of a current element, specific electric charge, resonance.
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Information about author:
Yury T. Aleksentsev, associate professor of department of combined heat and power plant, Moscow Technical University of Communications and Informatics, Moscow, Russia