Dr. Murthy minimizes overly dense academic jargon, choosing instead to explain abstract geometric and physical concepts in plain, direct language. How to Utilize This Book for Exam Preparation
Presented in both differential (point) and integral forms. These equations rule all classical electromagnetic phenomena. Unit V: Electromagnetic Wave Propagation
Reinforcing theory through graded numerical problems. 2. Key Mathematical Foundations Covered
Moving from electrostatics, this chapter covers current density, Ohm's law in microscopic form, the continuity equation, and the resistivity of materials. These equations rule all classical electromagnetic phenomena
Dr. TVS Arun Murthy’s text approaches electromagnetic field theory by systematically breaking down fields based on time-dependence and media. The textbook structurally spans several foundational modules: 1. Vector Analysis and Coordinate Systems
: Simplifying magnetic field calculations for symmetric currents. Magnetic Flux Density ( ) and Vector Potential ( ) .
The author is known for structuring the book to explain the fundamentals of electromagnetic field theory in "plain, lucid language", which has made it a popular choice for classroom instruction. His intention behind the book was to cover the key aspects of the subject in a well-structured manner, making it accessible to a broad range of engineering students. and antennas. Differential and Integral Calculus
Solution of one-dimensional boundary value problems.
Use diagrams to understand how electric flux lines interact with surfaces.
The final chapter in the original edition covers the basic principles of electromagnetic radiation from accelerating charges, laying the groundwork for understanding antennas. this chapter covers current density
The title itself emphasizes "Problems," and the book delivers on this promise. Every chapter features a vast array of:
If you are looking for free resources to study Electromagnetics, consider these options:
Try to derive major laws (like Gauss's or Ampere's) from scratch rather than memorizing the final formulas. Finding Study Guides and PDFs
: Used for rectangular geometries like parallel-plate capacitors. Ideal for coaxial cables and cylindrical conductors. Spherical Coordinates : Perfect for point charges, dipoles, and antennas. Differential and Integral Calculus