Title :
Undergraduate electromagnetics: a new paradigm
Author :
Voltmer, David R.
Author_Institution :
ECE Dept., Rose-Hulman Inst. of Technol., Terre Haute, IN, USA
Abstract :
The traditional use of differential and integral vector calculus as the basis for undergraduate electromagnetic courses is reconsidered. A compelling case is made for improved student understanding by basing introductory electromagnetics on two mutually supporting principles-spatial discretization and numeric formulation. Dividing space into discrete cells facilitates casting the laws of electromagnetics in terms of lumped element circuit theory. The vector nature of fields evolves naturally from the behavior of these discrete circuit elements. Numeric formulations for discretized space similar to those used by electromagnetic professionals take the form of remarkably simple models and algorithms. Powerful computer engines and graphics operate on these formulations to solve “real world” applications and bring the physical concepts to life. This “work in progress” is presented to stimulate audience comments and discussion
Keywords :
calculus; computer science education; electrical engineering computing; electrical engineering education; electromagnetism; teaching; computer engines; differential vector calculus; discrete cells; discrete circuit elements; discretized space; electromagnetic courses; electromagnetic professionals; integral vector calculus; introductory electromagnetics; lumped element circuit theory; numeric formulation; real world applications; spatial discretization; student understanding; undergraduate electromagnetics; Casting; Circuit theory; Computer graphics; Computer science education; Electromagnetic modeling; Engines; Physics computing;
Conference_Titel :
Frontiers in Education Conference, 1995. Proceedings., 1995
Conference_Location :
Atlanta, GA
Print_ISBN :
0-7803-3022-6
DOI :
10.1109/FIE.1995.483206
