![]() Can choose between the various numerical methods to use the right method for a particular problem.Can translate the mathematical description of a solution into a computer program.Understand the mathematical concepts upon which computational electromagnetics relies. ![]() Understand why numerical methods are needed to solve realistic or practical problems in electromagnetics and why this need will increase.By the end of this course the student will be able to: This course examines the principles and applications of numerical techniques for solving practical electromagnetics problems. Review of electromagnetics and Maxwell’s equations finite differencing of partial differential equations one-dimensional wave equation the finite-difference time-domain (FDTD) method numerical stability and dispersion scattered field formulation absorbing boundary conditions method of moments (MoM) finite element method (FEM). Course Type/Credits: Elective course/3 credits
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