Fundamentals of Electric Circuits: Charge, current and Kirchhoff's current law - Voltage and Kirchhoff's voltage law - Ideal voltage and current sources - Electric power and sign convention - Circuit elements and their i-v characteristics - Ohm's law - Series and parallel resistors - Measuring devices - Electrical networks - Network analysis. Laboratory realization of electrical networks and measurements of circuit variables - Verification of Ohm's and Kirchhoff's laws. Resistive Network Analysis: The node voltage method - The mesh current method - Thevenin and Norton equivalent circuits - Experimental determination of Thevenin and Norton equivalents - Maximum power transfer, experimental verification. AC Network Analysis: Dynamic circuit elements - Time-dependent signal sources - Solution of circuits containing dynamic elements - Phasors and impedance - Superposition of AC signals (experimental verification) - AC circuit analysis methods - AC equivalent circuits - Real capacitors and inductors. Laboratory realization of AC networks and measurements of circuit variables. AC Power: Instantaneous and average power - Reactive power - Complex power - Power factor. Second-Order Circuits: Transient and steady-state analysis. Resonance (experimental verification). Frequency Response: Sinusoidal frequency response - Filters (low-pass, high-pass, band-pass). Laboratory realization of filters and measurement of frequency response. Mutual Inductance - Transformers: Basic concepts - Laboratory realization.