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Maxwell´s Equations = From Current D...
~
Donnevert, Jürgen.
Maxwell´s Equations = From Current Density Distribution to the Radiation Field of the Hertzian Dipole /
Record Type:
Language materials, printed : Monograph/item
Title/Author:
Maxwell´s Equations/ by Jürgen Donnevert.
Reminder of title:
From Current Density Distribution to the Radiation Field of the Hertzian Dipole /
Author:
Donnevert, Jürgen.
Description:
XVI, 173 p. 100 illus. Textbook for German language market.online resource. :
Contained By:
Springer Nature eBook
Subject:
Electrical engineering. -
Online resource:
https://doi.org/10.1007/978-3-658-29376-5
ISBN:
9783658293765
Maxwell´s Equations = From Current Density Distribution to the Radiation Field of the Hertzian Dipole /
Donnevert, Jürgen.
Maxwell´s Equations
From Current Density Distribution to the Radiation Field of the Hertzian Dipole /[electronic resource] :by Jürgen Donnevert. - 1st ed. 2020. - XVI, 173 p. 100 illus. Textbook for German language market.online resource.
Potential and Current Density Distribution. – Electrostatics -- The Stationary Magnetic Field -- Time-Varying Electric and Magnetic Fields -- Wave Propagation -- Appendix: Verification of the Calculation Rules for Vector Analysis.
This book focuses on the derivation and solution of Maxwell’s equations. The stations along the way include the laws of potential and current density distribution, as well as the laws of electrostatics and stationary magnetic fields. The book is chiefly intended for students of electrical engineering, information technology, and physics; the goal is to prepare them for courses on Electromagnetic Field Theory (EFT). Building on what they have learned in advanced physics and mathematics courses at secondary school or technical college, it is intended to accompany university-level EFT courses. Particular importance is attached to detailed explanations in text form, combined with a wealth of illustrations. All formulas are derived step by step. . Contents • Potential and Current Density Distribution • Electrostatics • The Stationary Magnetic Field • Time-Varying Electric and Magnetic Fields • Wave Propagation • Appendix: Verification of the Calculation Rules for Vector Analysis Target groups Students of electrical engineering and information technology, as well as physics students About the author Prof. Jürgen Donnevert lectures and conducts research in the fields of transmission systems, optical communications engineering, radio relay technology and mobile communications. .
ISBN: 9783658293765
Standard No.: 10.1007/978-3-658-29376-5doiSubjects--Topical Terms:
596380
Electrical engineering.
LC Class. No.: TK1-9971
Dewey Class. No.: 621.3
Maxwell´s Equations = From Current Density Distribution to the Radiation Field of the Hertzian Dipole /
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This book focuses on the derivation and solution of Maxwell’s equations. The stations along the way include the laws of potential and current density distribution, as well as the laws of electrostatics and stationary magnetic fields. The book is chiefly intended for students of electrical engineering, information technology, and physics; the goal is to prepare them for courses on Electromagnetic Field Theory (EFT). Building on what they have learned in advanced physics and mathematics courses at secondary school or technical college, it is intended to accompany university-level EFT courses. Particular importance is attached to detailed explanations in text form, combined with a wealth of illustrations. All formulas are derived step by step. . Contents • Potential and Current Density Distribution • Electrostatics • The Stationary Magnetic Field • Time-Varying Electric and Magnetic Fields • Wave Propagation • Appendix: Verification of the Calculation Rules for Vector Analysis Target groups Students of electrical engineering and information technology, as well as physics students About the author Prof. Jürgen Donnevert lectures and conducts research in the fields of transmission systems, optical communications engineering, radio relay technology and mobile communications. .
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Computer Science and Engineering (German Language) (SpringerNature-11774)
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