| WEEK |
DATES |
LECTURE TOPICS |
| 1. |
28. 2. — 4. 3. |
I. |
Introduction
Variables (charge, currents, energy, voltage, power, flux linkages), Elements (resistor, inductor, capacitor, voltage and current sources) |
| 2. |
7. 3. — 11. 3. |
II. |
Circuit Topology, Kirchhoff 's Current Law, Kirchhoff 's Voltage Law, Linearly Independent Kirchhoff Equations, Resistive Circuits |
| 3. |
14. 3. — 18. 3. |
III. |
AC Quantities, Amplitude and Phase Relationships for Circuit Elements, Phasors |
| 4. |
21. 3. — 25. 3. |
IV. |
Impedance and Admittance, AC Steady-State Equations |
| 5. |
28. 3. — 1. 4. |
V. |
AC Power |
| 6. |
4. 4. — 8. 4. |
VI. |
Series and Parallel Connections, Voltage and Current Divider Rules, Input Impedance, Nonlinear Resistive Circuits |
| 7. |
11. 4. — 15. 4. |
VII. |
Frequency Characteristics of Electric Circuits - Resonance |
| 8. — 9. |
18. 4. — 29. 4. |
MIDTERM EXAMS |
| 10. |
2. 5. — 6. 5. |
VIII. |
Nodal Analysis, Mesh Current Analysis |
| 11. |
9. 5. — 13. 5. |
IX. |
The Superposition Principle, Thévenin's Theorem, Norton's Theorem |
| 12. |
16. 5. — 20. 5. |
X. |
Three-Phase Line and Phase Quantities, Δ and Y connections |
| 13. |
23. 5. — 27. 5. |
XI. |
Δ and Y connections, Power in Three-Phase System |
| 14. |
30. 5. — 3. 6. |
XII. |
MutuaI Inductance and Coupled Circuit Equations, Transformers |
| 15. |
6. 6. — 10. 6. |
XIII. |
First-Order Circuits Transients, Second-Order Circuits Transients |
| 16. — 20. |
13. 6. — 15. 7. |
FINAL EXAMS, SUMMER EXAM TERM |
|
