## Introduction to Electromagnetic Theory: A Modern PerspectivePerfect For The upper-level undergraduate physics student, Introduction to Electromagnetic Theory presents a complete account of classical electromagnetism with a modern perspective. Its focused approach delivers numerous problems of varying degrees of difficulty for continued study. the text gives special attention to concepts that are important For The development of modern physics, and also discusses applications to other areas of physics wherever possible. A generous amount of detail has been in given in mathematical manipulations and vectors are employed right from the start. |

### What people are saying - Write a review

User Review - Flag as inappropriate

this text book is nice for beginner in electromagnetic theory or field theory they can gain knowledge more and more

c.kannan

skypower electronics

chennai

### Contents

Mathematical Preliminaries | 1 |

Electrostatics | 30 |

Electrostatic Boundary Value Problems | 89 |

Magnetostatics | 129 |

TimeDependent Magnetic Fields and Faradays Law of Induction | 171 |

Maxwell Equations and Electromagnetic Waves in Vacuum | 203 |

Electrostatics of Dielectric Media | 235 |

The Physics of Electric Conductivity | 289 |

Relativity and Electromagnetism | 357 |

Electromagnetic Waves in Matter | 409 |

Electromagnetic Waves in Bounded Media | 427 |

Electromagnetic Radiation | 442 |

Chapter 7 | 446 |

Motion of Particles in Electric and Magnetic Fields | 481 |

Appendix Solutions of Laplaces Equation in Spherical Polar Coordinates | 510 |

Magnetic Properties of Matter | 322 |

### Common terms and phrases

Ampere's law angle angular momentum atom axis boundary conditions calculate capacitor cavity charge density charge distribution charge q charged particle circuit components conductor consider constant coordinates Coulomb's law current density cylinder defined dielectric differential direction displacement distance divergence theorem effect elec electric and magnetic electric dipole electric field electromagnetic waves electron energy equal equipotential example expression field intensity flow force four-vector free charge frequency function Gauss given by equation Hence induced inside Laplace's equation light linear loop Lorentz Lorentz force Lorentz transformations magnetic dipole magnetic field magnetic flux magnetic moment material Maxwell equations medium molecules motion moving normal obtain orbit parallel perpendicular plates point charge Poisson's equation positive Poynting vector problem propagation radiation radius result scalar shown in Figure solenoid solution space sphere spherical superconductor theorem tion transformation uniform vector potential velocity wire zero