Proposed Ee Course Outcome.docx

Proposed Course Outcome (Department of Electrical Engineering): EEX-203

Electrical Measurement and Measuring Instruments

[3 0 0 3]

Course Outcome: At the end of the course student will have ability to 1. To use the techniques and skills for electrical projects. 2. Design a system, component or process to meet desired needs in electrical engineering. 3. Measurement of R,L,C ,Voltage, Current, Power factor , Power, Energy 4. Ability to balance Bridges to find unknown values. 5. Ability to measure frequency, phase with Oscilloscope 6. Ability to use Digital voltmeters 7. Ability to measure strain, displacement, Velocity, Angular Velocity, temperature, Pressure, Vacuum, and Flow EEX-201

Circuit Theory

[3 1 0 4]

Course Outcome: At the end of the course student will have ability to 1. Match concepts in trigonometry, complex algebra, and matrix algebra to utilize techniques, skills, and modern engineering tools necessary for electrical engineering practices. 2. Select proper network reduction techniques, circuital laws and theorems for magnetic / electric circuit solution considering economic, performance, efficiency and availability constraints. 3. Estimate parameters for different types of attenuators and filters used in signal modulation for power systems and communication systems. 4. Analyze circuits and systems by their standard parameters to identify their characteristics in general form, applicable for generation, transmission and distribution considering economical, ethical and practical limitation. 5. Develop various methodology/strategies through various domain of analysis to evaluate performance characteristics of electrical networks and analyse their operation under different operating conditions for various electrical/electromagnetic systems. 6. Apply computer mathematical and simulation programs to solve various real life multi‐ disciplinary topics through circuit solution.

EEX-202

EMF Theory

[3 1 0 4]

Course Outcome: At the end of the course student will have ability to 1. Define and recognize different co‐ordinate systems to describe the spatial variations of the physical quantities dealt in electromagnetic field theory as they are functions of space and time. 2. Apply different techniques of vector calculus to understand different concepts of electromagnetic field theory. 3. Explain fundamental laws governing electromagnetic fields and evaluate the physical quantities of electromagnetic fields (Field intensity, Flux density etc.) in different media using the fundamental laws. 4. Determine the electromagnetic force exerted on charged particles, current elements, working principle of various electric and electromagnetic energy conversion devices are based on this force. 5. Design electromagnetic energy storage devices like capacitor, inductor which are frequently used in electrical systems and choose suitable materials required to assemble such electromagnetic energy storage devices. 6. Deduce and justify the concepts of electromagnetic waves, means of transporting energy or information, in the form of radio waves, TV signals, radar beams and light rays. 7. Generalize the concepts of guided structures like transmission line, means of transporting energy or information, commonly used in power distribution and communication. EEX-204 Course Outcome:

Electrical Machines I

[3 1 0 4]

At the end of the course student will have ability to 1. Determine the performance of a single-phase transformer by conducting Open Circuit (O.C) and Short Circuit (SC) tests and Sumpner’s test. 2. Understand 3-phase to 2-phase transformation using the Scott connection and determine the different losses of the transformers. 3. Determine the performance characteristics of DC shunt and DC compound generators by conducting load tests. 4. Implement the speed control techniques for a separately excited DC motor 5. Determine the performance characteristics of DC machine by conducting direct and indirect tests