Resistive circuits including circuit laws, network reduction, nodal analysis, mesh analysis; introduction to operational amplifiers; circuit analysis with inductors and capacitors; sinusoidal steady state circuit analysis; AC power calculations; magnetically coupled circuits; the ideal transformer; resonance; introduction to circuit simulation. Prerequisites: Grade of C or better in PHYS 207; grade of C or better in PHYS 217/ENGR 217 or ENGR 217/PHYS 217; grade of C or better in CHEM 107, CHEM 102, or CHEM 120; grade of C or better in MATH 308, or concurrent enrollment Credits 4. 3 Lecture Hours. 3 Lab Hours.
Resistive circuits including circuit laws, network reduction, nodal analysis, mesh analysis; introduction to operational amplifiers; circuit analysis with inductors and capacitors; sinusoidal steady state circuit analysis; AC power calculations; magnetically coupled circuits; the ideal transformer; resonance; introduction to circuit simulation. Prerequisites: Grade of C or better in PHYS 207; grade of C or better in PHYS 217/ENGR 217 or ENGR 217/PHYS 217; grade of C or better in CHEM 107, CHEM 102, or CHEM 120; grade of C or better in MATH 308, or concurrent enrollment Credits 4. 3 Lecture Hours. 3 Lab Hours.
