Course Content
WeekTopicsStudy Materials _ocw_rs_drs_yontem
1 Fundamental concepts. Charge and current, voltage, power and energy. Relationships between circuit variables. Passive and active elements. Review of electric physics.
2 Ohms law, Kirchhoffs laws. Series resistors and voltage dividers. Parallel resistors and current dividers. Star-delta, delta-star transformations. DC measurement devices. Review of previous lecture.
3 Nodal analysis and mesh analysis. Supernode and supermesh concepts. Review of previous lecture.
4 Superposition theorem, source transformations, Thevenins and Nortons theorems, maximum power transfer theorem Review of previous lecture.
5 Operational amplifiers. Ideal operational amplifier concept. Inverting and non inverting amplifiers. Review of previous lecture.
6 Summing amplifiers. Cascade connections of operational amplifiers. Review of previous lecture.
7 General review Review of all of the previous lectures
8 Capacitors and inductors. Terminal relationships of capacitors and inductors. Series and parallel connections of capacitors and inductors. Review of previous lecture.
9 DC behaviors of capacitors and inductors. Review of previous lecture.
10 DC analysis of source free RL and RC circuits. Step responces of RL and RC circuits. Review of previous lecture.
11 Analysis of first order operational amplifier circuits. Switching functions. Review of previous lecture.
12 Determination of initial and final values of capacitor voltage and inductor current. DC analysis of source free series and parallel RLC circuits. Review of previous lecture.
13 Step responces of series and parallel RLC circuits. Review of previous lecture.
14 DC analysis of first order operational amplifier circuits. Review of previous lecture.
15 Analysis of general second order RLC circuits. Review of previous lecture.
16-17 General review and final examination. Review of all previous lectures and final examination

Recommended or Required Reading
Textbook
Additional Resources
Fundamentals of Electric Circuits, Charles K. Alexander, McGraw-Hill