1. |
Outline |
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Students will learn the followings in this course, (1) The idea and mathematical expression of the sources and fields (2) How to calculate electromagnetic quantities in fields and circuits.
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2. |
Objectives |
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The goal of this course is to acquire knowledge and skills so as to be able to correctly calculate electromagnetic quantities in electromagnetic fields and circuits.
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3. |
Grading Policy |
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You will be graded by your quiz results and submitted reports (total 50%) and final examination marks (50%). Quiz results and reports are returned within 2 weeks after submission.
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4. |
Textbook and Reference |
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Textbook is "Basics of Electromaginetism" by WADA Sumio (Japanese). Supplementary English materials will be provided if necessary.
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5. |
Requirements (Assignments) |
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Read the corresponding part of the text carefully and solve the example problems (~3 hours).
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6. |
Note |
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None.
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7. |
Schedule |
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1. Electricity basics 1 (Current and battery, power consumption) |
2. Electricity basics 2 (Ohm's law, Joule heat, units for electromagnetism) |
3. Electric field and potential 1 (Coulomb's law, electric field and field lines, field examples) |
4. Electric field and potential 2 (Gauss' laws and their applications) |
5. Electric field and potential 3 (Electic energy and potential, electric field and potential of parallel plate electrodes) |
6. Electric field and potential 4 (Force and stored energy in capacitors, conductors and electrostatic induction) |
7. Direct current circuit 1 (Electric field in conductor and ohm's law, circuit basics) |
8. Direct current circuit 2 (Direct/parallel connection, connection of sources) |
9. Direct current circuit 3 (Kirchhoff's law and its applications) |
10. Direct current circuit 4 (Capacitors) |
11. Basics of magnetic phenomena 1 (Magnetic force and field, laws of magnetic phenomena) |
12. Basics of magnetic phenomena 2 (Current model of magnets, strengths of magnetic field and force) |
13. Basics of magnetic phenomena 3 (Ampere's law and its applications) |
14. Basics of magnetic phenomena 4 (Lorentz force, electricity generation by mangetic force) |
15. Basics of magnetic phenomena 5 (Power generators and motors) |
|
1. |
Outline |
|
Students will learn the followings in this course, (1) The idea and mathematical expression of the sources and fields (2) How to calculate electromagnetic quantities in fields and circuits.
|
2. |
Objectives |
|
The goal of this course is to acquire knowledge and skills so as to be able to correctly calculate electromagnetic quantities in electromagnetic fields and circuits.
|
3. |
Grading Policy |
|
You will be graded by your quiz results and submitted reports (total 50%) and final examination marks (50%). Quiz results and reports are returned within 2 weeks after submission.
|
4. |
Textbook and Reference |
|
Textbook is "Basics of Electromaginetism" by WADA Sumio (Japanese). Supplementary English materials will be provided if necessary.
|
5. |
Requirements (Assignments) |
|
Read the corresponding part of the text carefully and solve the example problems (~3 hours).
|
6. |
Note |
|
None.
|
7. |
Schedule |
|
1. Electricity basics 1 (Current and battery, power consumption) |
2. Electricity basics 2 (Ohm's law, Joule heat, units for electromagnetism) |
3. Electric field and potential 1 (Coulomb's law, electric field and field lines, field examples) |
4. Electric field and potential 2 (Gauss' laws and their applications) |
5. Electric field and potential 3 (Electic energy and potential, electric field and potential of parallel plate electrodes) |
6. Electric field and potential 4 (Force and stored energy in capacitors, conductors and electrostatic induction) |
7. Direct current circuit 1 (Electric field in conductor and ohm's law, circuit basics) |
8. Direct current circuit 2 (Direct/parallel connection, connection of sources) |
9. Direct current circuit 3 (Kirchhoff's law and its applications) |
10. Direct current circuit 4 (Capacitors) |
11. Basics of magnetic phenomena 1 (Magnetic force and field, laws of magnetic phenomena) |
12. Basics of magnetic phenomena 2 (Current model of magnets, strengths of magnetic field and force) |
13. Basics of magnetic phenomena 3 (Ampere's law and its applications) |
14. Basics of magnetic phenomena 4 (Lorentz force, electricity generation by mangetic force) |
15. Basics of magnetic phenomena 5 (Power generators and motors) |
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