| 1 | Scope and application areas of Electrical and Electronics Engineering (EEE). | [1] p 1-20. |
| 2 | Setting up a home lab. The systems of units. Scientific and Engineering Notation. Circuit Diagrams. Introducing Circuit Simulation Software and Programming Languages. | [4] p 15-45. |
| 3 | Atomic Theory Review. Conductors, Insulators and Semiconductors. What is Voltage-Current? Measuring Voltage and Current. Switches, Fuses, and Circuit Breakers. | [4] p 47-118; [5] p 3-48. |
| 4 | Components used in electrical engineering. Resistance of Conductors. Resistivity of Conductors. Temperature Effects on resistance. Types of Resistors. Selecting an appropriate resistor special to design. | [4] p. 81-119 ; [5] p. 56-76. |
| 5 | Resistor markings. Measuring Resistance. Thermistor. Varistors. LDR. Conductance. Superconductors. Ohm?s Law. Introduction to power and energy. Watthour Meters. Efficiency. | [2] s 76-87; s 96-113. |
| 6 | Series Circuits. Circuit Ground. Kirchhoff?s voltage laws. Internal Resistance of Voltage Sources. Parallel Circuits. Voltmeter Loading Effects. The Series-Parallel Network. | [2] s 130-150; s 178-197; s 200-203; s 22-227. |
| 7 | Capacitors. Capacitors in series or parallel. Capacitor v-i Relationship. Testing of Capacitors with an Ohmmeter. Analysis of Capacitor Charging & Discharging. Capacitor markings | [2] s 386-390; s 393-409; s 418-420. s 424-426 |
| 8 | Midterm exam. | |
| 9 | Magnetism and Magnetic Circuits. Inductors. | [2] s 462-467; s 493-499; s 501-511 |
| 10 | AC Fundamentals | [2] p 550-591; p 617-626 |
| 11 | The PN Junction. Diode. LED?s and LED displays. Regulated power supply design. Breadboards. Printed Circuit Board Layout and Design. | [3] s 15-30 |
| 12 | Transistors. Analogue and Digital Systems. Logic signals. Basic Logic Gates. Integrated Circuits (Chips) and Logic ICs. | [3] p 30-45. |
| 13 | Independent study for term project. | |
| 14 | Final Exam | |