АНАЛИТИЧЕСКИЙ МЕТОД РАСЧЕТА КВАЗИСТАЦИОНАРНОГО ТРЕХМЕРНОГО ЭЛЕКТРОМАГНИТНОГО ПОЛЯ ТОКА, ПРОТЕКАЮЩЕГО ПО КОНТУРУ ПРОИЗВОЛЬНОЙ КОНФИГУРАЦИИ ВБЛИЗИ ЭЛЕКТРОПРОВОДНОГО ТЕЛА

АНАЛИТИЧЕСКИЙ МЕТОД РАСЧЕТА КВАЗИСТАЦИОНАРНОГО ТРЕХМЕРНОГО ЭЛЕКТРОМАГНИТНОГО ПОЛЯ ТОКА, ПРОТЕКАЮЩЕГО ПО КОНТУРУ ПРОИЗВОЛЬНОЙ КОНФИГУРАЦИИ ВБЛИЗИ ЭЛЕКТРОПРОВОДНОГО ТЕЛА

On the basis of the analytical decision of problem on a field of radiating harmonious current dipole the analytical calculation method of quasistationary three-dimensional electromagnetic field created by arbitrary spatial current contour, located near conducting body with a flat surface is develope...

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Bibliographic Details
Date:2017
Main Authors: Васецький, Ю.М., Дзюба, К.К.
Format: Article
Language:Ukrainian
Published: Інститут електродинаміки НАН України, Київ 2017
Subjects:
квазистационарное трехмерное электромагнитное поле
произвольный контур с током
вихревые токи
Online Access:https://techned.org.ua/index.php/techned/article/view/747
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Journal Title:Technical Electrodynamics

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Technical Electrodynamics
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Summary:On the basis of the analytical decision of problem on a field of radiating harmonious current dipole the analytical calculation method of quasistationary three-dimensional electromagnetic field created by arbitrary spatial current contour, located near conducting body with a flat surface is developed. The analytical decision taking into account closed current contour is found for vector potential, induction of magnetic field and intensity of electric field in dielectric and conducting media without limitations on contours geometry, media properties and current frequency It is established, that the current density in the conducting medium has no component directed perpendicularly to flat surface of body for any initial current system and for any dependence of currents on time. As consequence, the perpendicular component of electric field intensity on a surface of the dielectric medium and surface density of electric charge do not depend on properties of the conductive medium and they are defined only by a vertical component of the induced electric field of the initial currents at any dependence on time. References 21, figure 1.

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