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Electricity and Magnetism, ECE115
Vector calculus. Coulomb’s and Gauss’s law. Electric field of discrete and continuous charge distributions. Electric potential, energy and capacitance. Current and forces on moving charges. Resistance and DC circuits with one loop. Magnetic fields. Ampere’s law, Bio-Savart’s formula, examples in rings and coils. Induction: Faraday’s law, induced electric fields, motional emf. Examples and applications: inductance. RLC transients.
Fields and Waves, ECE320
Theory of electromagnetic waves on transmission lines; Smith chart. Maxwell’s equations. Propagation, reflection and refraction of plane waves. Theory of waveguides. Radiation from dipoles and antennas. Elementary theory of interference and diffraction. Textbook: S. Ramo, J.R. Whinnery, T. Van Duzer, Fields and Waves in Communication Electronics. (Prerequisite: ECE221H1 S.)
Electricity and Magnetism, ECE357
Matter Wave Interaction, ECE1251
Electromagnetic Theory, ECE 1228
Electromagnetic Fields and Waves, EECE 361