| Course title | |||||
| 電磁気学応用 [Electromagnetism and its applications] | |||||
| Course category | technology speciality courses | Requirement | Credit | 2 | |
| Department | Year | 2~4 | Semester | 1st | |
| Course type | 1st | Course code | 022252 | ||
| Instructor(s) | |||||
| 生嶋 健司 [IKUSHIMA Kenji] | |||||
| Facility affiliation | Faculty of Engineering | Office | Email address | ||
| Course description |
| Electromagnetism is one of the basic knowledges required for conducting research in science and technology. In this lecture, the goal is to understand the basic concept of electromagnetism and to be able to apply it to actual problems in biomedical engineering. Based on “Electromagnetism” learned in the first year, the essence of electric and magnetic phenomena including material properties will be described. In this lecture, classes and exercises will be conducted while discussing the relationship between electromagnetism and biomedical engineering. |
| Expected Learning |
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The achievement criteria are described below. (1) To be able to explain the physical meaning of the basic law of electromagnetics (Maxwell's equation). (2) To be able to explain electrostatic phenomena including conductors and dielectrics. (3) To be able to explain magnetostatic phenomena including magnetic materials. (4) To be able to describe and explain time-varying electromagnetic phenomena. See the Curriculum maps. |
| Course schedule |
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Lecture 1: Introduction: Electromagnetics and medical engineering Lecture 2: Expressing electric and magnetic fields as vector fields Lecture 3: Fundamental Laws of Electromagnetism I (represented by Integration of Vector Fields) Lecture 4: Fundamental Laws of Electromagnetism II (expression by Differentiation of Vector Field) Lecture 5: Phenomena of electrostatic field (scaler potential and dipole filed) Lecture 6: Phenomena of electrostatic field in the presence of a conductor Lecture 7: Phenomenon of electrostatic field in the presence of a dielectric Lecture 8: Phenomena of static magnetic field (vector potential) Lecture 9: Phenomenon of static magnetic field (Biot-Savart's law) Lecture 10: Phenomenon of static magnetic field in the presence of a magnetic material Lecture 11: Time-varying electromagnetic phenomenon (Maxwell's equations in matter) Lecture 12: Time-varying electromagnetic phenomenon (electromagnetic induction and inductance) Lecture 13: Time-varying electromagnetic phenomena (wave equations) Lecture 14: Time-Varying Electromagnetic Phenomena (electromagnetic waves) Lecture 15: Summary |
| Prerequisites |
| In addition to 30 hours that students spend in the class, students are recommended to prepare for and revise the lectures, spending the standard amount of time as specified by the University and using the lecture handouts as well as the references specified below. |
| Required Text(s) and Materials |
| References |
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The Feynman Lectures on Physics, Volume II, mainly electromagnetism and matter (Feynman, Leighton, Sands) http://www.feynmanlectures.caltech.edu/ |
| Assessment/Grading |
| Small tests and reports during lecture (50%) and a term-end exam (50%) when the exam becomes possible. Online-tests and reports are evaluated if on-line lectures only. |
| Message from instructor(s) |
| Course keywords |
| Office hours |
| Questions through Classroom or email are possible. |
| Remarks 1 |
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| Last update |
| 1/26/2022 12:50:57 PM |