1 | Introduction. Overview of the course. |
2 | Forming of laboratory groups. Laboratory orientation. |
3 | Introduction of multimeter, oscillator and oscilloscope, realization of the Kirchhoff's Laws - I. |
4 | Introduction of multimeter, oscillator and oscilloscope, realization of the Kirchhoff's Laws - II. |
5 | Modelling of multiple terminal circuit elements - I. |
6 | Modelling of multiple terminal circuit elements - II. |
7 | Investigation of transient response in RC circuits. |
8 | Midterm Exam |
9 | Investigation of transient response in RL circuits. |
10 | Investigation of transient response in RLC circuits. |
11 | Investigation of steady state response in AC and DC circuits. |
12 | Finding Thevenin equivalents of circuits. |
13 | Finding Norton equivalent of circuits. |
14 | Investigation of scaling, superposition and reciprocity theorems. |