Course No. 430.202B Lecture
No. 003 Course Title
(Subtitle)
Introduction to
Electromagnetism with Practice Credit 3
Representative Instructor
Name Sunkyu Yu (post : Assistant
Professor ) Homepage https://waves.snu.ac.kr/
E-mail [email protected] Phone No. 02-880-7281
Interview Time/Place : Web or E-mail / Online (Zoom) Prerequisite
Course Courses: Engineering Mathematics I & 2, Physics 2, Honor Physics 2
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1.Purpose of CourseThis lecture introduces the fundamental knowledge on electromagnetics, which will be the foundation of the Electromagnetics course. Starting from learning essential vector calculus and special functions, we will focus on theoretical and numerical tools for handling static electromagnetic fields and their extension for the derivation of wave equations.
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2.Materials and Reference1. D. K. Cheng, Field and Wave Electromagnetics, 2nd ed., Addison-Wesley, Reading, MA, USA, (1989).
ISBN: 0-201-12819-5.
2. A. Zangwill. Modern Electrodynamics, Cambridge University Press (2001). ISBN: 978-0-521-89697-9.
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3.Evaluation MethodAttendance Task Midterm Final Term
Project Attitude Other Total
0 20 30 (15+15) 20 20 10 0 100
Attendance
Policy : Students who are absent for over 1/3 of the class will receive a grade of 'F' or 'U' for the course.
(Exceptions can be made when the cause of absence is deemed unavoidable by the course instructor.) Remark of Others :
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4.Lecture Plan01st week Introduction & Vector Analysis 02nd week Vector Analysis
03rd week Vector Analysis / Static Electric Fields (EXP 1) 04th week Static Electric Fields (EXP 2)
05th week Static Electric Fields (EXP 3) 06th week Midterm 1
07th week Laplace/Poisson Equations (EXP 4) 08th week Laplace/Poisson Equations (EXP 5) 09th week Steady Electric Currents (EXP 6) 10th week Midterm 2
11th week Static Magnetic Fields 12th week Static Magnetic Fields
13th week Time-Varying Fields and Maxwell's Equations (partly) 14th week Special Topics
15th week Final Exam
5.References to Course Registration
Online Lectures (Exams can be online or offline depending on COVID-19).
Closed book (only for offline), open book & take home exams will be combined.
Term Project (numerical simulation of electromagnetic phenomena) can be replaced with homework.
Homework may include paper review, numerical calculations, or writing an abstract.
The evaluation and lecture schedule may change depending on COVID-19 situations.
6. Support Services for Students with
Disabilities
For Lectures
○ Visual Impairment: Make textbooks(digital textbook, braille textbook, enlarged textbook etc.), Allow note takers
○ Physical Disability: Make textbooks (digital textbook), Allow note takers and assistants
○ Hearing Impairment: Allow note takers and translators, Allow lecture recording
◇ fields with * : required fields
◇ If you don’t release the syllabus, you may have some disadvantages.
You can
※
modify these default contents.
○ Health Impairment: Excuse absence due to health problems, Allow note takers
○ Learning Disability: Allow note takers
○ Intellectual Disability / Autism Spectrum Disorder: Allow note takers and mentors
For Assignments
& Evaluations
○ Visual Impairment / Physical Disability / Hearing Impairment / Health Impairment / Learning Disability: Extend assignment deadlines, Offer alternate assignment submission and response method, Extend testing period, Offer alternate testing method, Offer different testing room
○ Intellectual Disability / Autism Spectrum Disorder: Offer individualized assignments and alternative evaluations
Others
Students who take this course can get appropriate level of support service including the support listed above depending on the students’ individual characteristics and needs through consultation with professors and the Support Center for Students with Disabilities. If you have any questions concerning support service for students with disabilities you can contact Professor Sunkyu Yu ([email protected]) or Support Center for Students with Disabilities (02-880-8787).