Course title
E07347002
Electromagnetism 3B

 AISO Kohei
Course description
The aim of this exercise in Electromagnetism 3 is to provide analytical skills necessary to deal with electromagnetic induction and Maxwell's equation.
There are no exams, but students are required to write reports every time.
Purpose of class
The purpose of this study is to understand the practical application of Maxwell's equations, namely, scaler and vector potentials, electromagnetic induction, inductance, electric energy flow, electric force derived from the virtual displacement.
The four Maxwell's equations together with scaler potential and vector functions are described by the different equations that are valid at every point in space.
At the end of the course, participants are expected to explain the fundamental phenomena of electromagnetic wave, transportation of electric energy using poyting vector.
Goals and objectives
  1. To be able to understand and explain the following:
    (1)Displacement current, Maxwell Equations
    (2)Wave equation for electromagnetic waves, Propagation of electromagnetic waves, Sinusoidal electromagnetic wave, Propagation of electromagnetic waves
  2. To be able to calculate examples and practice problems on the following:
    (1)Displacement current, Maxwell Equations
    (2)Wave equation for electromagnetic waves, Propagation of electromagnetic waves, Sinusoidal electromagnetic wave, Propagation of electromagnetic waves
  3. To be able to calculate applied problem on the following:
    (1)Displacement current, Maxwell Equations
    (2)Wave equation for electromagnetic waves, Propagation of electromagnetic waves, Sinusoidal electromagnetic wave, Propagation of electromagnetic waves
Language
Japanese
Class schedule

 Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. Lecture of textbook section 8.1 Displacement current Preparation of the text book pp.145-147 200minutes
2. Exercises about textbook section 8.1 Displacement current Preparation of the text book pp.145-147 200minutes
3. Lecture of textbook section 8.2 Maxwell Equations Preparation of the text book pp.147-148 200minutes
4. Exercises about textbook section 8.2 Maxwell Equations Preparation of the text book pp.147-148 200minutes
5. Lecture of textbook section 8.3 Wave equation for electromagnetic waves Preparation of the text book pp.148-151 200minutes
6. Exercises about textbook section 8.3 Wave equation for electromagnetic waves Preparation of the text book pp.148-151 200minutes
7. Lecture of textbook section 8.4 Propagation of electromagnetic waves Preparation of the text book pp.151-154 200minutes
8. Exercises about textbook section 8.4 Propagation of electromagnetic waves Preparation of the text book pp.151-154 200minutes
9. Lecture of textbook section 8.5 Sinusoidal electromagnetic wave Preparation of the text book pp.154-157 200minutes
10. Exercises about textbook section 8.5 Sinusoidal electromagnetic wave Preparation of the text book pp.154-157 200minutes
11. Lecture of textbook section 8.6 Poynting's vector Preparation of the text book pp.157-161 200minutes
12. Exercises about textbook section 8.6 Poynting's vector Preparation of the text book pp.157-161 200minutes
13. Final examination explanation Review of chapter.8 in the text book 200minutes
14. Explanation of Final examination Review of chapter.8 in the text book 200minutes
Total. - - 2800minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

 Exercises Final exam Total.
1. 20% 20% 40%
2. 20% 20% 40%
3. 10% 10% 20%
Total. 50% 50% -
Evaluation method and criteria
The final grade will be determined by total points of all exercises and final examination.
Distribution of points: Exercise, 50% and Final exam, 50%
To pass, students must earn at least 60 points out of total points 100 .

Evaluation criterion:
On exercise in the each class, the points are given for the following:
・Be able to consistently explain and calculate with minor mistake in description: 60%
・Be able to consistently explain and calculate with minimum essential explanation: 80%
・Be able to consistently explain and calculate with necessary and sufficient explanation: 100%
On final exam, the points are given for the following:
・Being able to solve surely the examples in the textbook: 60%
・And being able to solve surely the exercises at the end of each chapter in the textbook: 80%
・And being able to solve more advanced exercises: Addition is given within 20%
Feedback on exams, assignments, etc.
ways of feedback specific contents about "Other"
Feedback in the class
Textbooks and reference materials
Textbook:工科の物理3「電磁気学」,渡辺征夫・青柳晃 緒,培風館

Reference book

1.電気磁気学演習、電気学会、河野照哉、桂井誠 ISBN-978-4-88686-102-4
2.詳解「電気磁気学演習」、後藤憲一、山崎修一郎、共立出版
3.工学の基礎「電気磁気学(修訂版)」 裳華房 松本 聡 ISBN978-4-7853-2258-8
4.工科の物理「電磁気学」、渡辺征夫・青柳 晃共著,培風館
5.電気学会大学講座「電気磁気学」桂井 誠 ISBN4-88686-231-4
Prerequisites
Required knowledge: Static Electric fields, static magnetic fields, vector analysis, dielectrics, magnetic flux
Office hours and How to contact professors for questions
  • Tuesday 18:30-19:00
    E-mail: k-aiso@shibaura-it.ac.jp
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates an ability for utilizing knowledge
Active-learning course
More than one class is 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
  • 4.QUALITY EDUCATION
  • 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
Last modified : Sat Sep 09 05:42:53 JST 2023