IEE Course outline

CSE-123   Introduction to Electrical Engineering 3 hours in a week, 3.00 Cr.

Ohm’s law, Power and Energy:  Conductance and conductivity,  Ohm’s Law, Power, Wattmeter, Efficiency, Energy, Circuits Breaker’s, GFCIS and Fuses, Effect of Temperature on resistance Series  Circuits:  Introduction,  Voltage Sources in Series, Kirchoff’s Voltage Law, Resistance in Series, Voltage Divider rule, Voltage regulation Parallel circuits:  Introduction, kirchoff’s current law,  Current divider rule, Voltage source in parallel, Open and short circuits, Voltmeter Method of analysis:  Source conversion, Maxwell’s loop Current method, Mesh Analysis with matrix form, Nodal analysis with voltage source, Nodal analysis with current source Network theorem:  Delta star conversion, Superposition theorem, Thevenin’s theorem, Norton’s theorem, Maximum power transfer theorem. Laws:  Ampere’s law, Biot-Savart law, Induction and Inductance, Magnetic properties of matter, Inductors and transformers, AC and DC networks, DC and AC powers, Instantaneous and r.m.s value:  Current, voltage and power, average power for various combinations of R.L and C circuits, Phasor representation.

Reference Books: 

1. Boylested, Introductory Circuit and Analysis

2. B.L. Theraja, A Text book of Electrical Technology

 3. David Halliday and Robert Resin, Physics Part-II

CSE-124 Introduction to Electrical Engineering Practical 3 hours in a week, 1.5 Cr. Laboratory works based on CSE-123

Verification of ohm’s law and measurement of Resistivity of a Metallic wire, To verify Kirchoff’s Current law and kirchoff’s Voltage law, To verify Thevenin’s theorem, To verify Norton’s theorem, To verify Superposition theorem, To study R-C circuit and to find out the time constant, To study the R-L-C series Resistance circuit.