A modern guide for electromagnetic educators addressing questions about curricular content and pedagogical methods primarily at the undergraduate level. Topics include teaching methods, lab experiences and hands-on learning, and course structures that help teachers respond effectively to trends in learning styles and evolving engineering curricula.
A modern guide for electromagnetic educators addressing questions about curricular content and pedagogical methods primarily at the undergraduate level. Topics include teaching methods, lab experiences and hands-on learning, and course structures that help teachers respond effectively to trends in learning styles and evolving engineering curricula.
Dr. Krishnasamy T. Selvan is Professor in the Department of Electronics & Communication Engineering, SSN College of Engineering, since June 2012. Dr. Karl F. Warnick is Professor in the Department of Electrical and Computer Engineering at BYU.
Inhaltsangabe
1. Introduction. 2.Teaching and Learning Electromagnetics in 2020. 3. An Experiential Learning Approach in Electromagnetics Education. 4. Teaching and Learning Electromagnetics through MATLAB® Programming of Electromagnetic Fields. 5. Interactive Computational Tools for Electromagnetics Education Enhancement. 6. Computational Electromagnetics and Mobile Apps For Electromagnetics Education. 7. Teaching Electromagnetic Field Theory Using Differential Forms. 8. Maxwell's Displacement Current: A Teaching Approach Infusing Ideas of Innovation and Creativity. 9. Teaching Electromagnetic Waves to Electrical Engineering Students: An Abridged Approach. 10. Taking Electromagnetics Beyond Electrical and Electronics Engineering. 11. HyFlex Flipping: Combining In-Person and On-Line Teaching for the Flexible Generation. 12. Learning and Teaching in a Time of Pandemic. 13. Conclusion and Outlook.
1. Introduction. 2.Teaching and Learning Electromagnetics in 2020. 3. An Experiential Learning Approach in Electromagnetics Education. 4. Teaching and Learning Electromagnetics through MATLAB® Programming of Electromagnetic Fields. 5. Interactive Computational Tools for Electromagnetics Education Enhancement. 6. Computational Electromagnetics and Mobile Apps For Electromagnetics Education. 7. Teaching Electromagnetic Field Theory Using Differential Forms. 8. Maxwell's Displacement Current: A Teaching Approach Infusing Ideas of Innovation and Creativity. 9. Teaching Electromagnetic Waves to Electrical Engineering Students: An Abridged Approach. 10. Taking Electromagnetics Beyond Electrical and Electronics Engineering. 11. HyFlex Flipping: Combining In-Person and On-Line Teaching for the Flexible Generation. 12. Learning and Teaching in a Time of Pandemic. 13. Conclusion and Outlook.
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