Course title
電磁気学Ⅱ   [Electromagnetics Ⅱ]
Course category technology speciality courses,ets.  Requirement   Credit 2 
Department   Year 24  Semester Spring 
Course type Spring  Course code 022205
Instructor(s)
中村 仁   [NAKAMURA Jin]
Facility affiliation Graduate School of Engineering Office   Email address

Course description
This course follows from Electromagnetism (or Electromagnetism I), and provides students with a part of the physical foundation for the Engineering Program. The topics covered are the properties of electromagnetic field and plane electromagnetic waves in a vacuum. Some mathematical technics that vector algebra, solving a differential equation, etc., are required. The knowledge of electromagnetism in this course will be essential for the scientists and engineers.
Expected Learning
Students who successfully complete this course will be able to:
1. describe the force on a charged particle that moves in the static magnetic field
2. describe the magnetic field induced by the static electric current
3. describe the electric voltage induced by the time-dependent magnetic field
4. estimate the inductance of coil
5. describe the electric current in RLC circuit using a differential equation on the charge
6. describe a wave equation from the Maxwell’s equation in vacuum.
Course schedule
1st week: Review of Electromagnetism
2nd week: Force on charged particle that moves in a magnetic field
3rd week: Magnetic field by the static electric current (Biot-Savart Law)
4th week: Gauss’s Law, Ampere’s Law
5th week: Electromagnetic induction (Faraday’s Law)
6th week: Electromagnetic induction (Lenz’s Law)
7th week: Self and Mutual Inductance
8th week: 1st examination
9th week: RLC electric circuit
10th week: Displacement current
11th week: Maxwell’s equation
12th week: Wave equation derived from the Maxwell’s equation
13th week: Development of electromagnetic wave
14th week: Electromagnetic wave in a material
15th week: 2nd examination
Prerequisites
Electromagnetism (1212)
Required Text(s) and Materials
See reference publication.
References
Y. Nagaoka, Electromagnetism I and II (Iwanami, Japanese)
Assessment/Grading
Two 90-min examinations will be given, and the each is worth 50% of your grade.
Message from instructor(s)
Mastering the skills of understanding, describing, and explaining some electromagnetic phenomena will provide the basic way of logical thinking required in engineering field.
Course keywords
Magnetic field, Electromagnetic Induction, Maxwell’s equation
Office hours
After each lesson or via e-mail.
Remarks 1
A problem-solving provided as homework is effective in understanding the electromagnetic phenomena. You are welcome to and encouraged to do the homework with your own and/or friends. However, the work you submit should be your own and reflect your own understanding.
Remarks 2
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Lecture Language
Language Subject
Last update
8/8/2018 11:47:26 AM