到達目標
1.To be able to understand the terminology and master the fundamentals of the subject in order to acquire basic knowledge and engineering skills.
2.To be able to relate theory and phenomena.
3.To be able to explain physical properties and phenomena using theories in order to acquire technical engineering skills
4.To be able to answer specific calculation questions, such as examples and exercises that utilize and apply the theory.
ルーブリック
| Ideal Level | Standard Level | Unacceptable Level |
| Achievement 1: Understanding of terms and acquisition of basic matters | To be able to understand the terms and learn the basics. | To be able to understand terms and acquire some basics. | To be unable to understand the terms and acquire the basics. |
| Achievement 2: Understanding of theory and phenomenon | To be able to understand the theory and the phenomenon in association with each other. | To be able to understand the theory and the phenomenon to some extent. | To be unable to understand the theory and the phenomenon in association with each other. |
| Achievement 3: Explanation of physical properties and phenomena | To be able to explain physical properties and phenomena using theory. | To be able to explain physical properties and phenomena to some extent using theory. | To be unable to explain physical properties and phenomena using theory. |
| Achievement 4: Solving to calculation problems such as examples and exercises | To be able to solve specific calculation problems such as examples and exercises that utilize and apply theory. | To be able to solve specific calculation problems such as examples and exercises that utilize and apply theory to some extent. | To be unable to solve specific calculation problems such as examples and exercises that utilize and apply theory. |
学科の到達目標項目との関係
教育方法等
概要:
[Starting semester] Autumn semester - 2 hours a week
One of the educational objectives of this department is to provide students with basic engineering knowledge that leads to specialized engineering, electrical and electronic materials provide the basic knowledge necessary for the designing and manufacturing of electrical/electronic devices and components. The subject consists of basic properties of electrical and electronic materials, conductive/resistant materials, dielectric materials, magnetic materials, with goal to understand and explain the basic terminology, basic characteristics of each material.
授業の進め方・方法:
◎ In this course, students will first learn the basics of electrical and electronic materials, followed by a discussion of electrical and electronic materials (conductivity, resistance, dielectric and magnetic materials), correlating theory and phenomena. In this course, students will learn the basics of electrical and electronic materials, as they play an important role in technological innovation, the policy is to proceed with classes while considering the relationship with cutting-edge science and technology.
◎ Students will be assessed in the ratio of 70% for the achievement test and 30% for the class effort (quizzes, reports). The overall evaluation is a perfect score of 100, with 60 points or more being a passing grade. Answers and reports will be graded and returned to the students to check their level of achievement..
◎ If a supplementary test is conducted, the score will be assessed solely on the supplementary examination, with a minimum of 60 points being a passing grade. And overall grade in that case will be 60 points for this subject.
注意点:
1.Students are required to prepare and review the lectures in order to understand them better.
2.Students are required to bring their own calculators to do exercises in class. The class is designed to stimulate students' motivation to learn by incorporating a lot of exercises.
3.Classes are designed to stimulate the students' interest in cutting-edge technology and related topics.
4.Assignments and achievement tests will be used to evaluate the results of self-study.
授業の属性・履修上の区分
授業計画
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週 |
授業内容 |
週ごとの到達目標 |
| 後期 |
| 4thQ |
| 9週 |
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| 10週 |
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| 11週 |
|
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| 12週 |
|
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| 13週 |
|
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| 14週 |
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| 15週 |
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| 16週 |
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モデルコアカリキュラムの学習内容と到達目標
| 分類 | 分野 | 学習内容 | 学習内容の到達目標 | 到達レベル | 授業週 |
| 専門的能力 | 分野別の専門工学 | 電気・電子系分野 | 電磁気 | 電荷及びクーロンの法則を説明でき、点電荷に働く力等を計算できる。 | 4 | |
| 電界、電位、電気力線、電束を説明でき、これらを用いた計算ができる。 | 4 | |
| ガウスの法則を説明でき、電界の計算に用いることができる。 | 4 | |
| 導体の性質を説明でき、導体表面の電荷密度や電界などを計算できる。 | 4 | |
| 誘電体と分極及び電束密度を説明できる。 | 4 | |
| 静電容量を説明でき、平行平板コンデンサ等の静電容量を計算できる。 | 4 | |
| 静電エネルギーを説明できる。 | 4 | |
| 磁性体と磁化及び磁束密度を説明できる。 | 4 | |
評価割合
| Examination | Assignment | 合計 |
| 総合評価割合 | 70 | 30 | 100 |
| Basic Proficiency | 0 | 0 | 0 |
| Specialized Proficiency | 70 | 30 | 100 |
| Cross Area Proficiency | 0 | 0 | 0 |