About This Book
Engineering Electromagnetics is a fundamental field that studies the interaction between electric and
magnetic fields and their applications in various engineering disciplines. It provides the theoretical
foundation for understanding electromagnetic waves, transmission lines, antennas, and microwave
systems used in communication, power systems, and modern electronics. One of the core principles of
electromagnetics is Maxwell's Equations, which describe how electric and magnetic fields behave in free
space and in different materials. These equations help engineers design and analyze electromagnetic
systems, including radio waves, optical fibers, and wireless communication networks. Electromagnetic
waves play a crucial role in radio and television broadcasting, radar systems, satellite communications,
and fiber optics. Concepts such as wave propagation, reflection, refraction, and polarization are essential
for designing antennas, microwave devices, and wireless technologies like 5G and IoT (Internet of
Things). Another important area is electromagnetic interference (EMI) and shielding, which ensures that
electronic systems operate without interference. Applications extend to medical imaging (MRI), remote
sensing, and power transmission systems. With advancements in nanotechnology, metamaterials, and
quantum electrodynamics, electromagnetics continues to drive innovations in high-speed data
transmission, wireless energy transfer, and futuristic communication systems. This book on Elements of
Engineering Electromagnetics explores the fundamental principles of electric and magnetic fields, wave
propagation, and their applications in modern engineering.
Contents: 1. Introduction, 2. Electromagnetic Waves, 3. Electromagnetic Field Theory, 4. Magnetic
Materials, 5. Electromagnetic Radiation Energy, 6. Theory of Classical Electromagnetism, 7. Magnetic
Force and Electric Field, 8. Maxwell’s Electrodynamics, 9. Magnetic Force.
