科目情報
N1810100,P1810100,Q1810100,R1810100,V1810100
Introduction to Electromagnetism / Introduction to Electromagnetism

井上 芳幸
学修・教育到達目標(mDP)
学科 (課程コース) / 専攻 mDP 目標
生命科学科 C-1 数学、自然科学に関する基礎を理解し、利用することができる。
数理科学科 G-4 (国際プログラム対象の学修・教育目標)理工学の専門知識を外国語で理解し、その問題解決を外国語で行うことができる。
授業の目的
The purpose of this course is to provide an introductory understanding of electricity, magnetism, and light in a unified manner based on Maxwell’s equations. Students are expected to acquire the basic ability to describe electromagnetic phenomena qualitatively and quantitatively, and to apply fundamental laws and equations to simple problems in electromagnetism.
授業の概要
This is an introductory course on electricity and magnetism. In this course, the physical phenomena of electricity, magnetism, and light are explained in a unified manner based on Maxwell’s equations. Since this is an introductory course, the integral form of Maxwell’s equations is mainly used. The class is conducted in English. It is mainly offered face-to-face, but online participation or on-demand materials may also be used when necessary. In such cases, students will be informed in advance.

注意:
このシラバスは「電磁気学」の英語科目に相当するものです.日本語科目の「電磁気学」ではありません.
達成目標
  1. Understand the concept of electromagnetic fields from both qualitative and quantitative points of view.
  2. Understand Maxwell’s equations and be able to apply them to fundamental problems in electromagnetism.
  3. Understand the force acting on a charged particle in electromagnetic fields and be able to analyze its motion in simple cases.
達成目標との対応・割合

Assignments in class Midterm examination Final examination 合計
1. 10% 15% 10% 35%
2. 10% 10% 15% 35%
3. 10% 5% 15% 30%
合計 30% 30% 40% -
評価方法と基準
Assignments in class 30%, midterm examination 30%, and final examination 40% will be used for the overall evaluation. Assignments in class will be evaluated through short exercises, quizzes, or reports related to each class. The midterm and final examinations will evaluate students’ understanding of the basic concepts covered in class and their ability to solve problems in electromagnetism appropriately by using those concepts.

A total score of 60% or higher is required to receive credit. A score of 60% means that the student understands the basic contents covered in the course and is able to solve fundamental problems related to electric fields, magnetic fields, Maxwell’s equations, and the motion of charged particles in electromagnetic fields.
授業で使用する言語
英語
授業計画

授業計画 授業時間外課題(予習および復習を含む) 必要学習時間
1. - Introduction to the course
- What is electromagnetism?
- Electric charge and Coulomb’s law
Review the definitions of electric charge and force. Solve basic problems on Coulomb’s law. 190分
2. - Electric field
- Electric field lines
- Superposition principle
Review the concept of electric field. Solve basic problems on electric fields of point charges. 190分
3. - Electric flux
- Gauss’s law
- Applications of Gauss’s law
Review electric flux and Gauss’s law. Solve basic problems using Gauss’s law. 190分
4. - Electric potential
- Potential difference
- Relation between electric field and potential
Review electric potential and its relation to electric field. Solve basic problems on potential. 190分
5. - Capacitors
- Dielectrics
- Energy stored in electric fields
Review capacitance and dielectric materials. Solve basic problems on capacitors. 190分
6. - Electric current
- Resistance
- Ohm’s law
Review current, resistance, and Ohm’s law. Solve basic circuit problems. 190分
7. - Direct-current circuits
- Kirchhoff’s rules
- Review for midterm examination
Review the contents of Classes 1 to 7. Solve basic problems on DC circuits. 190分
8. - Midterm examination
- Review of the examination
Study for the examination. Review the problems after the midterm examination. 190分
9. - Magnetic field
- Magnetic force
- Motion of charged particles in magnetic fields
Review magnetic fields and magnetic force. Solve basic problems on charged particle motion. 190分
10. - Sources of magnetic field
- Biot-Savart law
- Maxwell-Ampère’s law
Review the laws describing magnetic fields produced by currents. Solve basic problems using Biot-Savart law and Ampère’s law. 190分
11. - Electromagnetic induction
- Faraday’s law
- Lenz’s law
Review electromagnetic induction. Solve basic problems on Faraday’s law and Lenz’s law. 190分
12. - Maxwell’s equations
- Integral form of Maxwell’s equations
- Physical meaning of Maxwell’s equations
Review Maxwell’s equations in integral form. Summarize the physical meaning of each equation. 190分
13. - Electromagnetic waves
- Light as an electromagnetic wave
- Review for final examination
Solve basic problems on electromagnetic waves. 190分
14. - Final examination
- Review of the examination
Study for the final examination. Review the contents of the course after the examination. 190分
合計 - - 2660分
試験・課題等のフィードバック
フィードバック方法 「その他」の具体的内容
授業内でフィードバックを行います。 - Questions during class will be handled in the classroom for face-to-face sessions and via Teams for online sessions.
- Feedback outside class will be provided regularly through Teams. Please check Teams notifications when they arrive.
教科書・参考書
No required textbook is specified for this course. Lecture notes and other materials will be provided by the lecturer. As reference books, students may consult David J. Griffiths, Introduction to Electrodynamics, 4th ed., Cambridge University Press. For more advanced study, J. D. Jackson, Classical Electrodynamics, 3rd ed., Wiley, may also be consulted.
履修登録前の準備
Even students who have not studied high school physics can pass this course if they have sufficient mathematical background and review the material carefully. However, the course will be easier to understand if students read a high school physics textbook or reference book in advance.
オフィスアワー、質問・相談の方法
  • Questions and consultations are accepted at any time by e-mail or via the designated online form.
地域志向
地域志向ではない科目
社会的・職業的自立力の育成
  • 社会的・職業的自立力を育成しない科目
  • 知識活用力を育成する科目
  • 対課題基礎力を育成する科目
アクティブ・ラーニング科目
能動的な学修への参加を取り入れた授業が1コマ分以上
実務経験のある教員による授業科目
実務経験 具体的内容
該当しない 該当しない
SDGs(持続可能な開発目標)関連項目
  • 4.質の高い教育をみんなに
  • 9.産業と技術革新の基盤をつくろう
最終更新 : Wed Apr 29 11:37:51 JST 2026