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ASM Handbook

Induction Heating and Heat Treatment

Edited by
Valery Rudnev
Valery Rudnev
Inductoheat Inc.
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George E. Totten
George E. Totten
Portland State University
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ASM International
Volume
4C
ISBN electronic:
978-1-62708-167-2
Publication date:
2014
Book Chapter

Electromagnetic Problem Solutions

By
Jerzy Barglik
Jerzy Barglik
Silesian University of Technology
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Dagmara Dołęga
Dagmara Dołęga
Silesian University of Technology
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Published:
2014
Page range:
261 - 265
Publication history
May 27, 2014

Abstract

Electromagnetic problem solutions are based on the macroscopic theory of the continuous model for the electromagnetic field (EMF). It is described by a system of integral or partial differential equations for five vector quantities, namely, electric field strength, electric flux density, current density, magnetic field strength, and magnetic flux density. This article describes the behavior of the EMF by Maxwell's equations in integral or differential forms. It discusses the definition of potentials; methods of mathematical modeling; boundary conditions; and energy, power density, and electromagnetic forces.

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Jerzy Barglik, Dagmara Dołęga, 2014. "Electromagnetic Problem Solutions", Induction Heating and Heat Treatment, Valery Rudnev, George E. Totten

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