Course title
電磁気学Ⅰおよび演習   [Electromagnetics Ⅰ & Practices]
Course category technology speciality courses,ets.  Requirement   Credit 3 
Department   Year 24  Semester Spring 
Course type Spring  Course code 022707
Instructor(s)
清水 大雅   [SHIMIZU Hiromasa]
Facility affiliation Faculty of Engineering Office   Email address

Course description
Electromagnetism is one of fundamental subjects in electrical and electronic engineering. We are going to study Coulomb’s law, electric field / potential and their relationship, capacitance, and electric field in dielectric materials systematically. In this lecture, we are going to study steady electric field. Practices are included for better understanding.
Expected Learning
You will be able to understand steady electric field in Electromagnetism. Especially, you will be able to calculate the electric field and potential, and understand the fundamental principle of steady electric field.
Course schedule
1st.: Background of Electromagnetism, and introduction.
2nd: Review of vector analysis. Unit and Coulomb’s law on point charges.
3rd-4th.: Electric field and the calculation method.
5-6th: Practices on electric field and the calculation method.
7-8th: Gauss’ law and divergence. Calculation method of electric field by Gauss’ law.
9-10th: Practices on the calculation of electric field by Gauss’ law.
11-12th: Electric field inside and the surface of conductors
13-14th: Relationship between the electric field and potential. Calculation method of electric potential.
15-16th: Practices on the calculation of electric potential.
17-18th: Electric dipole and the electric field. Lecture of electric field in conductors with holes and shielding.
19-20th: Electrostatic energy.
21-22th: Dielectric materials and polarization. Gauss’ law and boundary conditions for the case including dielectric materials.
23-24th: Practices on the calculation of electric field in dielectric materials.
25-26th: Capacitance and the calculation method.
27-28th: Fundamental principle in steady electric field. Poisson’s equation.
29th: Review of the lecture.
30th: Examination.
Prerequisites
Required Text(s) and Materials
The Feynman Lecture on Physics, by Feynman, Richard Phillips
Engineering Electromagnetics, William H. Hayt, Jr. and John A. Buck
References
Assessment/Grading
The score is evaluated on the practices and examination.
Message from instructor(s)
I hope you understand the fundamental of electromagnetism systematically.
Course keywords
Coulomb’s law, electric field and potential, electrostatic energy, capacitance.
Office hours
14:00-16:00, Monday
Remarks 1
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
Last update
3/1/2018 10:10:34 AM