Lecture and Exercise on Electricity Magnetism

Course title

02136000

Course description

Through this course, students will learn the fundamentals of electromagnetics and to develop mathematical skills for electromagnetic engineering.
The first half of the course will focus on static electric fields and steady electric currents, and students study the ideas of electric fields and of electric potentials and fundamentals of direct-current circuits.
The second half of the course will focus on electromagnetic phenomena, and students work on the ideas of magnetic fields and the Lorentz force. Additionally, focusing on dynamic electromagnetic fields, students will be taught the ideas of electromagnetic inductions, electromagnetic waves, and fundamentals of alternating-current circuits.
At the end of the course, students would understand that all classical electromagnetic phenomena are explained by Maxwell's equations.

Purpose of class

This course is designed to provide a basic understanding of engineering electromagnetics.

Goals and objectives

Compute electric forces, electric fields, and electric potentials by Coulomb's law and/or Gauss's law.
Compute electric potentials around electrically charged materials, electric capacitance of capacitors, and electric fields in dielectric materials.
Compute magnetic fields and Lorentz forces by Biot-Savart law or Ampere's circuital law.
Compute induced electromotive forces by Faraday's law of induction. Compute electric current, voltage, and power in alternating-current circuits.
Explain the ideas of electromagnetic waves and Maxwell's equations.

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Coulomb force	Preview Chapter 3.	190minutes
2.	Electric field and Gauss's law	Preview Chapter 4.	190minutes
3.	Electric potential	Preview Chapter 5.	190minutes
4.	Electrostatic induction	Preview Chapter 6.	190minutes
5.	Electric capacitance and energy in electric field	Preview Chapter 7.	190minutes
6.	Ohm's law and direct-current circuit	Preview Chapter 8.	190minutes
7.	Magnetic field	Preview Chapter 9.	190minutes
8.	Electric current and magnetic field I --- Biot-Savart law ---	Preview Chapter 10.	190minutes
9.	Electric current and magnetic field II --- Ampere's circuital law ---	Preview Chapter 11.	190minutes
10.	Electromagnetic induction I	Preview Chapter 12.	190minutes
11.	Electromagnetic induction II	Preview Chapter 12.	190minutes
12.	Alternating-current circuit and transient phenomena	Preview Chapter 13.	190minutes
13.	Maxwell's equations and electromagnetic wave	Preview Chapter 14 and 15.	190minutes
14.	Review, and Final exam and commentary	Review the course and coursework assignments.	190minutes
15.
Total.	-	-	2660minutes

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

	assingments	Final Exam.	Total.
1.	8%	12%	20%
2.	8%	12%	20%
3.	10%	15%	25%
4.	10%	15%	25%
5.	4%	6%	10%
Total.	40%	60%	-

Evaluation method and criteria

[Assessment]
60% Final exam, 40% coursework assignments. The pass mark is 60%.

Textbooks and reference materials

狩野覚・市村宗武著　物理学入門 II. 電磁気学

Prerequisites

High school calculus (differential and vector calculus) and high school physics

Office hours and How to contact professors for questions

Right after class or by appointment.
非常勤　授業時間終了後または非常勤講師室へどうぞ

Relation to the environment

Non-environment-related course

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Non-social and professional independence development course
Course that cultivates an ability for utilizing knowledge

Active-learning course

About half of the classes are interactive

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicatable
N/A	該当しない

Last modified : Thu Mar 21 14:02:13 JST 2019