➢Distinguish between real and ideal voltage and current sources.
➢Competently describe the electrical properties of materials and their use.
➢State and apply the laws and rules of electrical circuit analysis including: Ohms law, Kirchhoff’s current and voltage laws, current and voltage division laws, superposition theorem, Norton and Thevenin theorems for problem solving.
➢Apply the principles of circuit analysis to series and parallel R,L,C circuits.
➢Practice circuit construction/assembling and use of multimeters and RLC meters to perform electrical measurements and do basic circuit troubleshooting.
➢Demonstrate the proper techniques for performing a range of measurements in an electric laboratory environment and be able to manipulate the measured data to derive supplementary information.
➢Describe the principles of a transformer and the basic AC generator and DC motors.
➢Use laboratory equipment proficiently.
➢Analyse and solve electric circuits using simulation software.
➢Competently describe the electrical properties of materials and their use.
➢State and apply the laws and rules of electrical circuit analysis including: Ohms law, Kirchhoff’s current and voltage laws, current and voltage division laws, superposition theorem, Norton and Thevenin theorems for problem solving.
➢Apply the principles of circuit analysis to series and parallel R,L,C circuits.
➢Practice circuit construction/assembling and use of multimeters and RLC meters to perform electrical measurements and do basic circuit troubleshooting.
➢Demonstrate the proper techniques for performing a range of measurements in an electric laboratory environment and be able to manipulate the measured data to derive supplementary information.
➢Describe the principles of a transformer and the basic AC generator and DC motors.
➢Use laboratory equipment proficiently.
➢Analyse and solve electric circuits using simulation software.