This book serves as a comprehensive resource for students and practitioners seeking to strengthen their understanding and problem-solving skills in the foundational aspects of electromagnetics. It presents fundamental concepts through problems, each accompanied by a brief theoretical introduction at the beginning of the chapter. With a strong didactic character, the book meticulously explains all mathematical steps and theoretical concepts, guiding readers to independently solve the exercises.
The significantly expanded 2nd edition of this book includes the addition of many new worked problems in electromagnetics, as well as new Appendices on the electric and magnetic properties of selected materials; the thermodynamics of electric and magnetic fields; and the scattering of electromagnetic waves. This book primarily focuses on electrostatic and magnetostatic fields, laying a solid groundwork for deeper exploration in electromagnetics. It covers sections related to electrostatics, magnetostatics, methods for solving electrostatic and magnetostatic problems. It encompasses the foundational concepts of electromagnetics, focusing on static fields and their properties, and covering topics such as Coulomb's law, Gauss' law, the Biot–Savart law, and magnetic materials.
This book serves as a comprehensive resource for students and practitioners seeking to strengthen their understanding and problem-solving skills in the foundational aspects of electromagnetics. It presents fundamental concepts through problems, each accompanied by a brief theoretical introduction at the beginning of the chapter. With a strong didactic character, the book meticulously explains all mathematical steps and theoretical concepts, guiding readers to independently solve the exercises.
The significantly expanded 2nd edition of this book includes the addition of many new worked problems in electromagnetics, as well as new Appendices on the electric and magnetic properties of selected materials; the thermodynamics of electric and magnetic fields; and the scattering of electromagnetic waves. This book primarily focuses on electrostatic and magnetostatic fields, laying a solid groundwork for deeper exploration in electromagnetics. It covers sections related to electrostatics, magnetostatics, methods for solving electrostatic and magnetostatic problems. It encompasses the foundational concepts of electromagnetics, focusing on static fields and their properties, and covering topics such as Coulomb's law, Gauss' law, the Biot–Savart law, and magnetic materials.
Félix Salazar Bloise
Problems and Solutions in Electrodynamics Problems and Solutions in Electromagnetism Coulomb's Law Applications Electric Field Calculations Gauss' Law Examples Electrostatic Potential Equations Dipole Moment Analysis Conductors And Insulators Properties Biot-Savart Law Problems Vector Calculus In Electromagnetics Laplacian In Electromagnetics Stokes’s Theorem Applications Divergence Theorem Problems Helmholtz’s Theorem Explanation Vector Potential Derivation