The book follows a progressive structure, starting from mathematical basics and moving toward advanced radiation theory: Mathematical Methods: Vector analysis and core concepts. Static Electric Fields: Coulomb's law and electrostatics. Electric Fields in Matter: Dielectrics and polarization. Steady Electric Current: Ohm's law and continuity equations. Steady Magnetic Fields: Magnetostatics. Magnetic Force and Materials: Torque, inductance, and magnetic boundary conditions. Time-Varying Fields: Faraday's Law and Maxwell’s equations. Electromagnetic Wave Propagation: Uniform plane waves in various media. Wave Polarization: Reflection and refraction. Transmission Lines: Theory and analysis. Waveguides: Propagation in rectangular and cylindrical guides. Radiation: Basic radiation principles. Antenna Basics: Fundamental parameters. Antenna Arrays: Array theory and design. Key Features Problem-Oriented:
. It is widely used in undergraduate electrical engineering and electronics curricula to cover the fundamental principles of static and dynamic fields. Core Course Content The book follows a progressive structure, starting from
: Sold by major retailers like Amazon India and S. Chand Publishing . Steady Electric Current: Ohm's law and continuity equations
: The book is renowned for its "Theory and Problems" approach, featuring a vast collection of numerical examples to help students master the "stepwise methods" required for exams. Time-Varying Fields: Faraday's Law and Maxwell’s equations
The book follows a progressive structure, starting from mathematical basics and moving toward advanced radiation theory: Mathematical Methods: Vector analysis and core concepts. Static Electric Fields: Coulomb's law and electrostatics. Electric Fields in Matter: Dielectrics and polarization. Steady Electric Current: Ohm's law and continuity equations. Steady Magnetic Fields: Magnetostatics. Magnetic Force and Materials: Torque, inductance, and magnetic boundary conditions. Time-Varying Fields: Faraday's Law and Maxwell’s equations. Electromagnetic Wave Propagation: Uniform plane waves in various media. Wave Polarization: Reflection and refraction. Transmission Lines: Theory and analysis. Waveguides: Propagation in rectangular and cylindrical guides. Radiation: Basic radiation principles. Antenna Basics: Fundamental parameters. Antenna Arrays: Array theory and design. Key Features Problem-Oriented:
. It is widely used in undergraduate electrical engineering and electronics curricula to cover the fundamental principles of static and dynamic fields. Core Course Content
: Sold by major retailers like Amazon India and S. Chand Publishing .
: The book is renowned for its "Theory and Problems" approach, featuring a vast collection of numerical examples to help students master the "stepwise methods" required for exams.