PEP 542 / EE 542Download as PDFElectromagnetismElectrical Engineering (Program)Department of Physics (Department)Engineering and ScienceCourse InformationEligibilityCourse ComponentsDependenciesCourse DescriptionElectrostatics; Coulomb-Gauss law; Poisson-Laplace equations; boundary value problems; image techniques, and dielectric media; magnetostatics; multipole expansion, electromagnetic energy, electromagnetic induction, Maxwell’s equations, electromagnetic waves, waves in bounded regions, wave equations and retarded solutions, simple dipole antenna radiation theory, and transformation law of electromagnetic fields. Spring semester. Typical text: Reitz, Milford and Christy, Foundation of Electromagnetic Theory.Credits3DistributionElectrical Engineering (Program)Department of Physics (Department)Periods Typically Offered Fall Semester
Electrostatics; Coulomb-Gauss law; Poisson-Laplace equations; boundary value problems; image techniques, and dielectric media; magnetostatics; multipole expansion, electromagnetic energy, electromagnetic induction, Maxwell’s equations, electromagnetic waves, waves in bounded regions, wave equations and retarded solutions, simple dipole antenna radiation theory, and transformation law of electromagnetic fields. Spring semester. Typical text: Reitz, Milford and Christy, Foundation of Electromagnetic Theory.