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HALMSTAD UNIVERSITY SYLLABUS Phone +46 35 16 71 00 • www.hh.se School of Information Science, Computer and Electrical Engineering •translated from Swedish Page 1 (2) Course Code: ET6004 / 7 Engineering Electromagnetics, 7.5 credits Elektromagnetism, 7.5 hp First level Progression: 61•90 Main eld: Electrical Engineering G1F Syllabus is adopted by the School of Information Science, Computer and Electrical Engineering (2012•05•10) and is valid for students admitted for the autumn semester 2014. Placement in the Academic System The course can be included in the Electrical Engineering Pro• gramme 180 credits. Prerequisites and Conditions of Admission Single Variable Calculus 7.5 credits, Linear Algebra 7.5 cre• dits, Multi Variable Calculus 7.5 credits, Electrical Circuits 7.5 credits. induction, polarization / magnetization in media and energy transport in waves Primary Contents Energy / power interaction between electrically•charged particles and the superposition principle. Magnetostatics. Maxwell's equation and time•dependent elds. Poynting's vector. Dielectrics. Electromagnetic waves. Course Objectives The over•arching goal of the course is that students should be able to analyze basic electrical and magnetic phenomena taking as their points of departure a eld•based description via Maxwell's equations. Interaction between waves and matter: re ection, refrac• tion, dispersion, propagation. Upon successful completion of the course the student should be able to: Teaching Formats Lectures, exercises and home assignments. Knowledge and understanding Teaching is in English. • account for and understand the signi cance of both vector and scalar elds • account for and describe Maxwell's equations in both integral• and differential form Skills and ability • calcuate the electrical and magnetic elds obtained for certain geometrically•manageable current and charge distributions • devise workable numeric strategies for calculating • elds for realistic current and charge distributions Judgement and approach • qualitatively describe and perform simpler calculations for more complex phenomena such as for example Course Literature Applications: eg wave transmission, optical nae, wave propagation. bres, anten• Examination The overall grades of Fail, 3, 4 or 5 will be awarded for the course. Written or oral examination. Course Evaluation Course evaluation is part of the course. This evaluation should offer guidance in the future development and planning of the course. Course evaluations should be documented and made available to the students. Page 2 (2) ET6004 / 7 Ida, Nathan. Engineering Electromagnetics. Springer•Verlag New York, 2004.
