This is an introductory course presenting fundamental DC and AC circuit analysis techniques. Topics include: Ohm’s law and Kirchhoff’s laws; series and parallel circuits; voltage and current division rules; node-voltage and mesh-current methods; superposition; Thévenin’s and Norton’s theorems; first- and second-order R-L-C circuits; steady-state analysis and power calculations for sinusoidally-varying (ac) circuits; operational amplifiers; passive and active filters; diodes; and transformers. This course will not satisfy the requirements of an Electrical or Computer Engineering degree. Laboratory experience is designed to reinforce the fundamental analysis techniques discussed in class.