Electromagnetism 3

Course title

G0013000

Electromagnetism 3

Course description

The students will study advanced content of electromagnetism and electromagnetic waves not covered in Electromagnetism 1 and 2, and will gain a complete understanding of the full range of electromagnetism.

Purpose of class

The students will study advanced content of electromagnetism and electromagnetic waves not covered in Electromagnetism 1 and 2, and be able to understand full range of electromagnetism.

Goals and objectives

Students will be able to explain the electroshadow method, Gauss's divergence theorem, Poisson's equation, and dielectric functions. (Corresponds to lecture plans 1-5)
Students will be able to explain magnetic circuits, transformers, and coupling coefficients. (Corresponds to lecture plan 7)
Students will be able to explain the basics of electromagnetic radiation. (Corresponds to lecture plans 8-13)

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Worksheet	Mid-term exam	Final exam	Total.
1.	4%	40%		44%
2.	1%		10%	11%
3.	5%		40%	45%
Total.	10%	40%	50%	-

Evaluation method and criteria

Evaluation method: Students will receive 10 points for each worksheet related to Goals 1-3, and 40 points for each specific problem related to Goal 1 in the mid-term exam. Students will be given specific questions related to Goal 2 and Goal 3 in the final exam (50 points). 60 points or more in total will be considered as passing the class.

The standard for passing the course is 60 points if the student understands the principles of electromagnetism and their derivation that he/she has studied and can reliably solve electromagnetism exercises in the worksheets, midterm and final examinations.

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	(1)Differential law of electrostatic field - Coulomb's law - Gauss's law	Preparation: Reference book1 pp.6-8, 38-47	190minutes
1.		Review: Review Worksheet1 and try to solve it by yourself.
2.	(1) Differential law of electrostatic field - Gauss's law of differential systems - Gauss's divergence theorem - Gauss's law of differential system without vortex - Stokes' theorem	Preparation: pp.74-90 of the reference book1	190minutes
2.		Review: Review Worksheet2 and try to solve it by yourself.
3.	(1) Differential law of electrostatic field - Electrostatic potential - Poisson's equation and Laplace's equation (2) Conductors and electrostatic field - Conductors and insulators, electrostatic field around conductors - Boundary value problems of conductors, mirror image method	Preparation: pp.90-99, 102-113 of the reference book1	190minutes
3.		Review: Review Worksheet3 and try to solve it by yourself.
4.	(3) Dielectric and electrostatic field - Dielectric, Electric field between polar plates in the presence of dielectric - Polarization and electric flux density - Boundary conditions of electrostatic field - Example of electrostatic field when there is a dielectric	Preparation: pp.280-299 of the reference book1	190minutes
4.		Review: Review Worksheet4 and try to solve it by yourself.
5.	Comprehensive review of 1-5	Review the contents of 1-5	190minutes
6.	Midterm exam and review	Scope of exam: contents of lesson plans 1-5. Evaluation of achievement objectives 1.	190minutes
7.	Understanding the laws of electromagnetic induction and transformers - Magnetic circuits - Vector potentials - Self-induction and self-inductance, mutual induction and mutual inductance - Coupling coefficients and transformer principles	Preparation: Handout; Reference book1 pp.178-186, 227-237; Reference book2 pp. 251-261	190minutes
7.		Review: Review Worksheet7 and try to solve it by yourself.
8.	Maxwell's equations and electromagnetic waves - Variable currents and conservation of charge, displacement currents - Maxwell's equations in differential form	Preparation: Reference book1 pp.250-259	190minutes
8.		Review: Review Worksheet8 and try to solve it by yourself.
9.	Maxwell's equations and electromagnetic waves - Energy of electromagnetic fields, Poynting vector - Electromagnetic waves (wave equation)	Preparation: Reference book1 pp.260-273	188minutes
9.		Review: Review Worksheet9 and try to solve it by yourself.
10.	Fluctuating electromagnetic fields and matter - Maxwell's equations in ... matter - Oscillating electric fields in dielectrics (dielectric function)	Preparation: Reference book1 pp.314-323	190minutes
10.		Review: Review Worksheet10 and try to solve it by yourself.
11.	Fluctuating electromagnetic fields and matter: - Electromagnetic waves in dielectrics	Preparation: Reference book1 pp.323-332	190minutes
11.		Review: Review Worksheet11 and try to solve it by yourself.
12.	Fluctuating electromagnetic fields and matter: - Electromagnetic waves in conductors	Preparation: Reference book1 pp.323-332	190minutes
12.		Review: Review Worksheet11 and try to solve it by yourself.
13.	Comprehensive review of 7-12	Review of the contents of 7-12 sessions.	190minutes
14.	Final exam and review	Scope of exam: contents of lesson plans 7-13. Evaluation of achievement objective 2-3.	190minutes
Total.	-	-	2658minutes

Feedback on exams, assignments, etc.

ways of feedback	specific contents about "Other"
Feedback in the class

Textbooks and reference materials

Reference book1: Electromagnetics I, II　by Yosuke Nagaoka　ISBN 9784000298636、ISBN 9784000298643
Reference book2: Electromagneticsb by Shigenobu Sunakawa　ISBN 9784000077446

Prerequisites

Enrollment in Electromagnetics 1 and Electromagnetics 2.

Office hours and How to contact professors for questions

Questions and consultation: Available during and after the lecture.
Office hours: Every Friday from 12:00 to 13:00 at Room 09B27, Research Building, Toyosu Campus. It is advisable to contact the office in advance when visiting.

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates an ability for utilizing knowledge

Active-learning course

Most classes are interactive

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicable
N/A	N/A

Education related SDGs:the Sustainable Development Goals

9.INDUSTRY, INNOVATION AND INFRASTRUCTURE

Last modified : Thu Mar 06 10:11:52 JST 2025