FUNDAMENTALS OF ELECTRICAL ENGINEERING
WEEK BY WEEK SCHEDULE · 2023/2024

2023/2024 — summer semester (study programme in English) — lecture plan
WEEK DATES LECTURE TOPICS
1 4 March — 8 March I. Introduction
Variables (charge, currents, energy, voltage, power, flux linkages), Elements (resistor, inductor, capacitor, voltage and current sources)
2 11 March — 15 March II. Circuit Topology, Kirchhoff 's Current Law, Kirchhoff 's Voltage Law, Linearly Independent Kirchhoff Equations, Resistive Circuits
3 18 March — 22 March III. AC Quantities, Amplitude and Phase Relationships for Circuit Elements, Phasors
4 25 March — 29 March IV. Impedance and Admittance, AC Steady-State Equations
5 2 April — 5 April V. AC Power
6 8 April — 12 April VI. Series and Parallel Connections, Voltage and Current Divider Rules, Input Impedance, Nonlinear Resistive Circuits
7 15 April — 19 April VII. Frequency Characteristics of Electric Circuits - Resonance
8 — 9 22 April — 3 May MIDTERM EXAMS
10 6 May — 10 May VIII. Nodal Analysis, Mesh Current Analysis
11 13 May — 17 May IX. The Superposition Principle, Thévenin's Theorem, Norton's Theorem
12 20 May — 24 May X. Three-Phase Line and Phase Quantities, Δ and Y connections
13 27 May — 29 May + 25 May* XI. Δ and Y connections, Power in Three-Phase System
14 3 June — 7 June XII. MutuaI Inductance and Coupled Circuit Equations, Transformers
15 10 June — 14 June XIII. First-Order Circuits Transients, Second-Order Circuits Transients
16 — 19 17 June — 12 July FINAL EXAMS, SUMMER EXAM TERM
LECTURES:
CYCLE I
CYCLE II

Also, during the summer semester students will do 9 lab exercises (lab classes will start in week 4) and solve 5 homework assignments.


* lecture presentations and exam examples are available after LOGIN on the system WebOE