Course Learning Outcomes
- Understanding and identifying components of basic electrical circuits, including independent voltage and current sources, connections, resistor, dependent sources.
- Being able to apply KCL and KVL to analyze simple circuits.
- Being able to analyze and find faulty points in basic circuits.
- Understanding electrical power concept and its relation with other energy sources.
- Understanding nodal and mesh analysis techniques as essential tools for analyzing complex circuits.
- Being able to decide and apply a sophisticated tool to solve complex resistive circuits.
- Understanding alternative ways of analyzing resistive networks.
- Understanding and using black-box concept (Thevenin and Norton equivalent circuits).
- Understanding transient state and being able to solve basic circuits involving capacitors and inductors.
- Understanding steady-state and phasor-domain concepts.
- Being able to convert sinusoidal-excited circuits into complex-valued phasor equivalents.
- Being able to carry out steady-state analysis of complex circuits involving resistors, capacitors, and inductors.