Further develops the theory and analysis of electric and magnetic fields and circuits beyond the level of the prerequisite courses. Fundamental topics include electrostatics, magnetostatics, electromagnetic force, Faraday's and Lenz's Laws, capacitance and inductance. Circuit topics include transient RC and RL circuits, a.c. sources, impedance, phasors, a.c. network analysis, ferromagnetism and magnetic circuits, basic transformers, and linear motors and generators. Students are expected to have facility with using complex numbers but not vector calculus. Prerequisite(s):MATH 123.3, MATH 133.4, MATH 110.3, or MATH 176.3; and MATH 124.3, MATH 134.3, MATH 116.3, or MATH 177.3; and PHYS 155.3, PHYS 156.3, or PHYS 115.3. Note: Formerly EE 202. Students with credit for EE 201 or EE 202 or EP 229 will not receive credit for this course.
Further develops the theory and analysis of electric and magnetic fields and circuits beyond the level of the prerequisite courses. Fundamental topics include electrostatics, magnetostatics, electromagnetic force, Faraday's and Lenz's Laws, capacitance and inductance. Circuit topics include transient RC and RL circuits, a.c. sources, impedance, phasors, a.c. network analysis, ferromagnetism and magnetic circuits, basic transformers, and linear motors and generators. Students are expected to have facility with using complex numbers but not vector calculus. Prerequisite(s):MATH 123.3, MATH 133.4, MATH 110.3, or MATH 176.3; and MATH 124.3, MATH 134.3, MATH 116.3, or MATH 177.3; and PHYS 155.3, PHYS 156.3, or PHYS 115.3. Note: Formerly EE 202. Students with credit for EE 201 or EE 202 or EP 229 will not receive credit for this course.
