TGGS > ECE > 331
Electromagnetic Field Theory for Smart Sensing Applications
Maxwell’s equations, Time-dependent fields: plane wave propagation; characteristics and power flow. Solution of boundary-value problems for time-harmonic fields, Relation between field theory and circuit theory: lump elements and transmission lines. Applications of electromagnetic field theory for smart industrial and medical sensing.
Credits : 3 (3-0-6)
Pre-Requisites : No
| Course Learning Outcomes (CLOs) : | |
|---|---|
| CLO 1 | Calculate fields’ quantities using Maxwell’s equations, describe time-dependent fields: plane wave propagation, characteristics, and power flow as well as solution of boundary-value problems for time-harmonic fields. |
| CLO 2 | Describe relations between field theory and circuit theory: lump elements and transmission lines. |
| CLO 3 | Develop fundamental knowledge for further research work in this area for students interested in this field especially applications of electromagnetic field theory for smart industrial and medical sensing. |
| CLO1 | CLO2 | CLO3 | |
| ELO 1 | ✓ | ✓ | |
| ELO 2 | ✓ | ✓ | |
| ELO 3 | ✓ | ||
| ELO 5 | ✓ | ||
| ELO 8 | ✓ |
Revision : July 2021 (090245135)
Other Revisions : July 2020