| Course title | |||||
| 情報処理学 [Computer Science] | |||||
| Course category | specialized courses/ major subjects | Requirement | Credit | 2 | |
| Department | Year | 2~4 | Semester | Fall | |
| Course type | Fall | Course code | 02c2357 | ||
| Instructor(s) | |||||
| 伊藤 夏実 [ITO Natsumi] | |||||
| Facility affiliation | Graduate School of Agriculture | Office | Kose'Lab | Email address | |
| Course description |
|
< In the first part, learn the Gauss' theorem and Poisson's equation to understand electrostatic phenomena. Give an understanding on the relationship between electric charge, electric field, and electrical potential. In the second part, learn the relationship between electrical current and magnetic field. Understand that the electric current generates magnetic field, and then magnetic field generates electromotive force. This course is a part of physics courses classified as specialized basic subjects in the Department of Applied Chemistry. |
| Expected Learning |
|
1. For the curriculum policy perspective of this course, please refer to the curriculum map in the Faculty of Engineering Course Guide. 2. Solve the equation to obtain electric field using Gauss' theorem. 3. Solve the equation to obtain electrical potential using Poisson's equation. 4. Describe the relations between electric charge, electric field and electrical potential. 5. Describe the equation of force that is exerted to a current or a moving charge in a magnetic field. 5. Calculate the magnetic field using Biot-Savart law 6. Calculate the magnetic field using Ampere's law 7. Calculate the electromotive force in a moving or transforming circuit |
| Course schedule |
|
Part 0, Orientation (1) General introduction and review of fundamentals Review the basic understanding and introduce the purpose of learning electromagnetics Part 1, Electrostatic Phenomena (2) Coulomb's law and line of electric force Understand the Coulomb's law in vector expression. Understand the concept of electric line of force (3) Gauss' theorem Understand the concept of Gauss' theorem and derive the electric field thereof (4) Electrical potential and electrostatic capacitance Understand the electrical potential and derive the capacitance of a simple system (5) Poisson's equation Derive the differential expression of Gauss' theorem and the Poisson's equation (6) Metal and insulator Understand the characteristics of conducting and insulating materials Part 2, Electrical Current and Magnetic Field (7) Lorentz force Understand the phenomena under magnetic field (8) Biot-Savart law Understand the origin of magnetic field (9) Gauss' theorem of magnetic field and magnetism Understand the difference between electric and magnetic fields (10) Ampere's law Understand the Ampere's law and derive the magnetic field of a simple system Part 3, Electromagnetic induction (11) Lenz's law Understand the concept of electromagnetic induction (12) Electric generator Apply the Lenz's law to a simple system Part 4, Electromagnetic wave (13) Displacement current and Maxwell's equations Understand the concept of displacement current and derive the Maxwell's equations (14) Electromagnetic wave Understand the electromagnetic wave based on the Maxwell's equations Part 5, Final wrap-up Part 6, Final exam |
| Prerequisites |
|
Requires basic mathematics on vector, differenciation and integration Requires basic understanding of mechanical physics such as equation of motion and potential energy The topics of dielectrics and electrical circuit are rendered to the laboratory class |
| Required Text(s) and Materials |
| Comprehensive Physics II (Yasuo Hara、Gakujutsu Tosho Shuppan-sha Co., Ltd.) |
| References |
| Assessment/Grading |
|
Excercise 10% Answer the excercise problems alloted in the classs correctly Final examination 90% Answer correctly to the problems pertinent to the "Expected Learning" in the final examination Recent distribution of final marks S 9% A 15% B 16% C 20% D 10% |
| Message from instructor(s) |
|
Many students have an impression that the electromagnetic theory is difficult to understand due to frequent use for differential and integral mathematics. However, it is important to give a graphical image of the phenomena before resorting to the mathematical equations. This subject is indispensable to understand the basic properties of materials and molecules. In addition, the electromagnetic phenomena are found in various aspects of our daily life. |
| Course keywords |
| Gauss' law, Poisson's equation, Biot-Savart's law, Ampere's law, electromagnetic induction |
| Office hours |
| Remarks 1 |
|
The class will be achieved by on-site manner. Google Classroom code: s6w6bv4 |
| Remarks 2 |
| Related URL |
| Lecture Language |
| Japanese |
| Language Subject |
| Last update |
| 4/4/2023 11:41:52 AM |