Course Objectives
1. Able to calculate basic vector analysis related to electromagnetic fields.
2. Able to explain Gauss's law and can use it for calculations related to electrostatic fields.
3. Able to explain Biot-Savart's law and Ampere's law, and calculate magnetic fields.
4. Able to explain electromagnetic induction and calculate self-inductance and mutual inductance.
5. Able to explain the propagation characteristics of planar electromagnetic waves.
Rubric
| Ideal
achievement level
(excellent) | Standard achievement level
(good) | Minimum achievement level
(possible) |
Achievement 1 | Able to perform complicated vector analysis calculations related to electromagnetic fields. | Able to calculate standard vector analysis related to electromagnetic fields. | Able to calculate basic vector analysis related to electromagnetic fields. |
Achievement 2 | Able to explain Gauss's law and be able to perform complex calculations on electrostatic fields. | Able to explain Gauss's law and use it for standard calculations of electrostatic fields. | Able to explain Gauss's law. |
Achievement 3 | Able to explain Biot-Savart's law and Ampere's law, and can calculate complex magnetic fields. | Able to explain Biot-Savart's law and Ampere's law and use them for calculations on standard magnetic fields. | Able to explain Biot Savart's Law and Ampere's Law. |
Achievement 4 | Able to explain electromagnetic induction and can perform complex calculations on self-inductance and mutual inductance. | Able to explain electromagnetic induction and be able to make standard calculations for self inductance and mutual inductance. | Able to explain electromagnetic induction. Can also explain self-inductance and mutual inductance. |
Achievement 5 | Able to understand the propagation characteristics of planar electromagnetic waves and calculate the intrinsic impedance and velocity of electromagnetic waves. | Able to explain the propagation characteristics of standard planar electromagnetic waves. | Able to explain the basic propagation characteristics of planar electromagnetic waves. |
Assigned Department Objectives
学習・教育到達度目標 B-3
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学習・教育到達度目標 D-1
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Teaching Method
Outline:
The purpose of this lecture is to relearn the basics of electromagnetic phenomena, learn Maxwell's electromagnetic equations, acquire applied computing power related to electromagnetic phenomena, and acquire the ability to accurately grasp, analyze and understand various phenomena related to electrical engineering.
Style:
In order to explain the exercises, we will focus on writing on the blackboard in a classroom style, but we will also learn in pairs and groups.
A report for each week will be given as pre- and post-study.
Notice:
Through example exercises based on vector analysis, we will relearn to calculate the basic laws of electric and magnetic fields learned so far in vector notation, and proceed with lectures with the help of textbooks. While re-learning the basic knowledge about vector analysis, I would like you to familiarize yourself with the theoretical treatment of electromagnetic phenomena and try to understand the physical meaning expressed in theory.
Characteristics of Class / Division in Learning
Course Plan
|
|
|
Theme |
Goals |
1st Semester |
1st Quarter |
1st |
Basics of vector analysis
|
Explain the scalar product, vector product, and vector divergence.
|
2nd |
Basics of vector analysis |
Explain Nabla, Laplacian, and gradient.
|
3rd |
Basics of vector analysis |
Explain vector rotation, line integral and surface integral.
|
4th |
Static electric field |
Explain Coulomb's law.
|
5th |
Static electric field |
Explain electric fields and electric potentials.
|
6th |
Static electric field |
Explain Gauss's theorem.
|
7th |
Static electric field |
Explain Gauss's theorem.
|
8th |
Mid-term exam |
|
2nd Quarter |
9th |
Magnetic field due to electric current |
Explain the line integral of amperes.
|
10th |
Magnetic field due to electric current |
Explain Biot-Savart's law.
|
11th |
Magnetic field due to electric current |
Explain the vector potential. Explain electromagnetic induction.
|
12th |
Electromagnetic induction |
Self-inductance and mutual inductance can be obtained.
|
13th |
Electromagnetic waves |
Explain the conduction current and displacement current.
|
14th |
Electromagnetic waves |
Explain Maxwell's basic electromagnetic equation.
|
15th |
Electromagnetic waves |
Explain plane electromagnetic waves and intrinsic impedance.
|
16th |
Return of final exam answers |
|
Evaluation Method and Weight (%)
| Examination | Presentation | Mutual Evaluations between students | Behavior | Portfolio | Other | Total |
Subtotal | 70 | 0 | 0 | 0 | 30 | 0 | 100 |
Basic Proficiency | 10 | 0 | 0 | 0 | 0 | 0 | 10 |
Specialized Proficiency | 60 | 0 | 0 | 0 | 30 | 0 | 90 |
Cross Area Proficiency | 0 | 0 | 0 | 0 | 0 | 0 | 0 |