Course title | |||||
電磁気学Ⅱおよび演習 [Electromagnetics Ⅱ & Practices] | |||||
Course category | technology speciality courses,ets. | Requirement | Credit | 3 | |
Department | Year | 2~4 | Semester | Fall | |
Course type | Fall | Course code | 022715 | ||
Instructor(s) | |||||
有馬 卓司 [ARIMA Takuji] | |||||
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 current, magnetic field / vector magnetic potential by current including their relationship, and steady magnetic field. Then we are going to study time-varying field (electromagnetic induction and displacement current), and electromagnetic waves. Finally, Maxwell’s equations are derived. Practices are included for better understanding. |
Expected Learning |
You will be able to understand steady magnetic field in Electromagnetism. Then, you will be able to calculate the magnetic field and vector magnetic potential by current, and understand the fundamental principle of steady magnetic field. You will be able to understand time-varying field (electromagnetic induction and displacement current), and physical meaning of Maxwell’s equations after studying electromagnetism. |
Course schedule |
1st.: Background of Electromagnetism and introduction. 2nd: Review of vector analysis, Ohm’s law, and current / electric field in conductors. 3rd: Current and magnetic field 4th: Ampere’s force and magnetic flux density 5th: Lorentz force and tube. 6th: Practice 1 7th: Biot-Savart’s law 8th: Practice 2 9th: Vector magnetic potential 10th: Practice 3 11th: Gauss’ law 12th: Ampere’s circuital law in derivative formula 13th: Ampere’s circuital law in integral formula 14th: Practice 4 15th: Force on currents in magnetic field 16th: Magnetic materials and magnetization 17th: Fundamental principles in magnetic materials. 18th: Boundary conditions for the case including magnetic materials. 19th: Magnetization of materials 20th: Faraday’s law of electromagnetic induction 21st: Electromotive force on moving conductors 22nd: Practice 5 23rd: Application of electromagnetic induction 24th: Principle of charge conservation and quasi-stationary current 25th: Inductance and magnetic energy 26th: Practice 6 27th: Displacement current and Maxwell’s equations 28th: Principle of energy conservation and Poynting vector 29th: Wave equations and electromagnetic wave 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 |
Current, magnetic field, magnetic material, electromagnetic induction, displacement current, Maxwell’s equations, electromagnetic wave |
Office hours |
14:00-16:00, Monday |
Remarks 1 |
Remarks 2 |
Related URL |
Lecture Language |
Japanese |
Language Subject |
Last update |
6/11/2018 10:02:28 AM |