Elias reached the page. The problem described a spherical cavity with an unusual charge distribution. As he traced the variables with his finger, he noticed something odd. In this specific digital copy, the "B" for the magnetic field was slightly misaligned, overlapping a "theta" in a way that looked like a jagged arrow.
This textbook is primarily targeted at undergraduate engineering students, particularly those in Electrical and Electronics Engineering (EEE) and Electronics and Communication Engineering (ECE) disciplines. It is structured to align with the syllabi of many Indian universities, such as Jawaharlal Nehru Technological University (JNTU), which makes it a frequently recommended text across many colleges in India and abroad.
The final segments explore how Maxwell's equations allow energy to travel through space: Elias reached the page
: Calculation of power flow and energy density in EM waves. Reflection and refraction of plane waves at boundaries. ✍️ The Value of Problem-Solving in EMFT
Do not skip Chapter 1 on Vector Analysis. If you cannot comfortably compute a curl, divergence, or cross-product in cylindrical coordinates, you will struggle with subsequent chapters. In this specific digital copy, the "B" for
This progression allows a student to systematically build their understanding, moving from the foundational math to the most complex engineering applications.
From Maxwell’s equations in free space (no charges or currents), the wave equation emerges: The final segments explore how Maxwell's equations allow
The inclusion of "Problems" in the book's title is intentional. EMFT cannot be mastered purely by reading text; it requires rigorous active problem-solving. Murthy’s book provides hundreds of examples categorized into:
Murthy’s book holds its own as a problem-solving-centric resource that is well-tailored for undergraduate engineering courses and exam preparation.