ENGG*3270 Electromagnetics in Biomedical Engineering F (3-2) [0.50]
This course explores the fundamentals of electromagnetics in biomedical engineering. Course topics include the following: vectors and spatial geometry, partial derivatives, multiple integrals, vector calculus, electrostatics, steady-state electric circuits, magnetostatics, Ampere's Law, Faraday's Law, and propagation of electromagnetic waves. Applications within biomedical engineering will be covered, e.g., computerized tomography, electromagnetic radiation safety and physiological effects, magnetic sensitivity of brain and heart tissue, tissue electrical resistances, ophthalmology, and light-tissue interaction.
Prerequisite(s): ENGG*2450
Department(s): School of Engineering