ElectromagnetismElectromagnetism sets a new standard in physics education. Throughout the book, the theory is illustrated with real-life applications in modern technology. It also includes detailed work examples and step-by-step explanations to help readers develop their problem-solving strategies and skills and consolidate their understanding. In addition to a meticulous development of thse traditional, analytical mathematical approaches, readers are also introduced to a range of techniques required for solving problems using computers. Electromagnetism provides an ideal preparation for readers who plan advanced studies in electrodynamics as well as those moving into industry or engineering . |
Contents
History and Perspective | 1 |
Vector Calculus | 9 |
Basic Principles of Electrostatics | 44 |
Copyright | |
32 other sections not shown
Common terms and phrases
Ampère-Maxwell Law Ampère's Law angle antenna approximation asymptotic atom axis boundary conditions calculate capacitor Chapter charge density charge q classical component conducting conductor constant coordinates cross section curl current density curves cylinder derived determine dielectric direction displacement current divergence electric and magnetic electric field electromagnetic field electromagnetic waves electron electrostatic example Exercise field energy FIGURE force frame F frequency function Gauss's Law incident induced inertial frame integral Laplace's equation light linear loop Lorentz transformation magnetic field material Maxwell equations Maxwell's mode momentum motion orthogonal oscillation parallel particle perpendicular physical plane wave plasma plates point charge polarization Poynting vector problem propagation radiation radius reflected region result satisfy scalar shown in Fig shows solenoid solution sphere spherical static surface charge surface current symmetry tensor theorem theory vacuum vector potential velocity wave guide wavelength wire xy plane μο