This course provides a comprehensive introduction to the fundamental concepts of electricity and magnetism within both theoretical and practical frameworks. It begins with the study of electrical phenomena in static and dynamic regimes, covering electrostatics, Coulomb’s law, electric field and potential, electric dipoles, Gauss’s theorem, as well as the properties of conductors, capacitors, electric current, and the laws of Ohm and Joule.
The course also explores the fundamentals of magnetism, including magnetic force and the Lorentz force law, the Biot–Savart and Ampère’s laws, magnetic flux and electromagnetic induction, culminating in Maxwell’s equations as a unified framework of electricity and magnetism.
By the end of the course, students will develop a solid understanding of electromagnetism and the ability to apply its principles to solve physical and engineering problems.