This course introduces the electromagnetic theory related on Maxwell's equation and technique of analysis for Electromagnetic
fields.
Based on electrostatic and electromagnetic fields, this subject covers all of areas relating electromagnetisms: starting with the experimental laws, generalizing them in steps, and finally synthesizing them in the form of Maxwell's equations.
Based on electrostatic and electromagnetic fields, this subject covers all of areas relating electromagnetisms: starting with the experimental laws, generalizing them in steps, and finally synthesizing them in the form of Maxwell's equations.
The purpose of this study is to understand the practical application of Maxwell's equations, namely, scaler and vector potentials,
electromagnetic induction, inductance, electric energy flow, electric force derived from the virtual displacement.
The four Maxwell's equations together with scaler potential and vector functions are described by the different equations that are valid at every point in space.
At the end of the course, participants are expected to explain the fundamental phenomena of electromagnetic wave, transportation of electric energy using poyting vector.
The four Maxwell's equations together with scaler potential and vector functions are described by the different equations that are valid at every point in space.
At the end of the course, participants are expected to explain the fundamental phenomena of electromagnetic wave, transportation of electric energy using poyting vector.
- To explain the Faraday's law of electromagnetic induction and Ampere-Faraday’s law
- To explain the inductance
- To explain electromagnetic energy and to calculate magnetic force
- To explain hysteresis loss and eddy current loss
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Lecture of textbook section 7.1 Faraday’s Law of Electromagnetic Induction | Preparation of the text book pp.123-126 | 200minutes |
| 2. | Exercises about textbook section 7.1 Faraday’s Law of Electromagnetic Induction | Preparation of the text book pp.123-126 | 200minutes |
| 3. | Lecture of textbook section 7.2 Transformer EMF and speed EMF | Preparation of the text book pp.126-128 | 200minutes |
| 4. | Exercises about textbook section 7.2 Transformer EMF and speed EMF | Preparation of the text book pp.126-128 | 200minutes |
| 5. | Lecture of textbook section 7.3 Inductance | Preparation of the text book pp.128-131 | 200minutes |
| 6. | Exercises about textbook section 7.3 Inductance | Preparation of the text book pp.128-131 | 200minutes |
| 7. | Lecture of textbook section 7.4 Inductance of various coils | Preparation of the text book pp.131-136 | 200minutes |
| 8. | Exercises about textbook section 7.4 Inductance of various coils | Preparation of the text book pp.131-136 | 200minutes |
| 9. | Lecture of textbook section 7.5 Electromagnetic Energy | Preparation of the text book pp.136-140 | 200minutes |
| 10. | Exercises about textbook section 7.5 Electromagnetic Energy | Preparation of the text book pp.136-140 | 200minutes |
| 11. | Lecture of textbook section 7.6 Eddy current loss and hysteresis loss | Preparation of the text book pp.140-142 | 200minutes |
| 12. | Exercises about textbook section 7.6 Eddy current loss and hysteresis loss | Preparation of the text book pp.140-142 | 200minutes |
| 13. | ・Lecture of textbook section 7.7 Skin effect ・Exercises about textbook section 7.7 Skin effect |
Preparation of the text book pp.142-143 | 200minutes |
| 14. | Final examination and explanation | Review of chapter.7 in the text book | 200minutes |
| Total. | - | - | 2800minutes |
| Exercises | Final exam | Total. | |
|---|---|---|---|
| 1. | 20% | 20% | 40% |
| 2. | 10% | 10% | 20% |
| 3. | 10% | 10% | 20% |
| 4. | 10% | 10% | 20% |
| Total. | 50% | 50% | - |
The final grade will be determined by total points of all exercises and final examination.
Distribution of points: Exercise, 50% and Final exam, 50%
To pass, students must earn at least 60 points out of total points 100 .
Evaluation criterion:
On exercise in the each class, the points are given for the following:
・Be able to consistently explain and calculate with minor mistake in description: 60%
・Be able to consistently explain and calculate with minimum essential explanation: 80%
・Be able to consistently explain and calculate with necessary and sufficient explanation: 100%
On final exam, the points are given for the following:
・Being able to solve surely the examples in the textbook: 60%
・And being able to solve surely the exercises at the end of each chapter in the textbook: 80%
・And being able to solve more advanced exercises: Addition is given within 20%
Distribution of points: Exercise, 50% and Final exam, 50%
To pass, students must earn at least 60 points out of total points 100 .
Evaluation criterion:
On exercise in the each class, the points are given for the following:
・Be able to consistently explain and calculate with minor mistake in description: 60%
・Be able to consistently explain and calculate with minimum essential explanation: 80%
・Be able to consistently explain and calculate with necessary and sufficient explanation: 100%
On final exam, the points are given for the following:
・Being able to solve surely the examples in the textbook: 60%
・And being able to solve surely the exercises at the end of each chapter in the textbook: 80%
・And being able to solve more advanced exercises: Addition is given within 20%
Required knowledge: Static Electric fields, static magnetic fields, vector analysis, dielectrics, magnetic flux
- Tuesday 18:30-19:00
E-mail: k-aiso@shibaura-it.ac.jp
- Course that cultivates an ability for utilizing knowledge
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| N/A | N/A |
- 4.QUALITY EDUCATION
- 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
Last modified : Sat Sep 09 05:21:34 JST 2023