Introduction to Classical Electrodynamics, Volume 1
出版済み 3-5週間でお届けいたします。
Title: Introduction to Classical Electrodynamics, Volume 1 Series: ISTE Invoiced Author: Abdesselam, Boucif (Universite Ain Temouchent Belhadj Bouchaib, Algeria) Publisher: ISTE ISBN: 9781836690009 Cover: HARDCOVER Date: 2025年07月 DESCRIPTION Introduction to Classical Electrodynamics 1 introduces the fundamentals of electromagnetic field theory. This book begins with electrostatics, focusing on the concepts of point charges, electric fields, electric potential and Gauss’s theorem. It then examines conductors, influence phenomena and capacitors, before exploring electrokinetics, detailing the concepts of electric current, circuits and resistance, as well as Kirchhoff’s laws. Next, this book analyzes the notion of magnetic field, Lorentz and Laplace forces, Biot-Savart’s law, Ampere’s theorem, electric and magnetic moments, and multipole developments. Boundary problems for static potentials in vacuum are also studied. The book is aimed at students of physics and mathematics, as well as engineering students interested in electromagnetic theory, providing an overview of electromagnetic theory, with numerous practical applications. TABLE OF CONTENTS Chapter 1 Electrostatic Field in Vacuum 1.1 Electric charges 1.2 Electrostatic force 1.3 Electric field 1.4 Electric potential 1.5 Equipotential surfaces 1.6 Gauss’ law 1.7 Electric field across a charged sheet 1.8 Model of the hydrogen atom Chapter 2 Conductors in Electrostatic Equilibrium 2.1 Conductors 2.2 Electrostatic equilibrium 2.3 Electrostatic pressure 2.4 Influence between conductors at electrostatic equilibrium 2.5 Capacitors 2.6 Energy stored in a capacitor 2.7 Forces of attraction between the armatures of a capacitor Chapter 3 Electrokinetics 3.1 Conduction in solids 3.2 Current density and intensity 3.3 Conservation of charge 3.4 Kirchhoff’s first law and approximation of quasi-stationary regimes 3.5 Conduction model for charged gas 3.6 Resistance 3.7 Direct current circuits 3.8 Relaxation time 3.9 Earth atmosphere as a spherical capacitor 3.10 Space charge Chapter 4 Magnetic Field in Vacuum 4.1 Force on a mobile charge 4.2 Magnetic field, Biot and Savart law 4.3 Conservation of magnetic flux 4.4 Laplace force 4.5 Ampere’s theorem 4.6 Magnetic field continuity at a sheet interface 4.7 Potential vector 4.8 Magnetic scalar potential Chapter 5 Electric and Magnetic Moments 5.1 Electric dipole 5.2 Electric multipole moments 5.3 Magnetic dipole moment Chapter 6 Boundary Problems for Static Potentials in Vacuum 6.1 Introduction 6.2 1D Laplace equation 6.3 2D Laplace equation 6.4 3D Laplace equation 最近チェックした商品
![]()
|