EEE213 Circuit Theory
| Course Description:
|
The course has been designed to introduce fundamental principles of circuit theory commonly used in engineering research and science applications.
Techniques and principles of electrical circuit analysis including basic concepts such as voltage, current, resistance, impedance, Ohm’s and Kirchoff’s law; basic electric circuit analysis techniques such as mesh and nodal analysis, norton and Thevenin equivalen circuits, resistive circuits, transient and steady-state responses of RLC circuits |
| Prerequisite(s): | None |
| Credit hours | 3 |
| ECTS Credits | |
| Textbook:
|
Fundamentals of Electric Circuits
Charles K. Alexander and Matthew N. O. Sadiku 5th Edition McGrawHill |
| Course Objectives:
|
To develop problem solving skills and understanding of circuit theory through the application of techniques and principles of electrical circuit analysis to common circuit problems.
Course Goals: 1. To develop an understanding of the fundamental laws and elements of electric circuits. 2. To learn the energy properties of electric elements and the techniques to measure voltage and current. 3. To understand transient, and steady-state responses of RLC circuits. 4. To develop the ability to apply circuit analysis to DC circuits. Learning Outcomes: 1. To be able to understand basic electrical properties 2. To be able to analyze electrical circuits |
| Grade Distribution: | Midterm I 25% |
| Midterm II 25% | |
| Final 50% |