到達目標
1. Basic matters concerning magnetism (Coulomb's law concerning magnetism, electromagnetic induction, etc.) can be explained.
2. Basic matters concerning electricity (Coulomb's law concerning static electricity, charging phenomena, etc.) can be explained.
3. Calculate the combined capacitance of a series-parallel circuit of capacitors.
ルーブリック
| Ideal Level | Standard Level | Unacceptable Level |
| Achievement 1 | Can Understand the basic matters concerning magnetism almost perfectly. | Can Understand basic matters concerning magnetism correctly. | Can't Understand the basic matters concerning magnetism. |
| Achievement 2 | Can Understand the basic matters concerning electricity almost perfectly. | Can Understand basic matters concerning electricity correctly. | Can't Understand the basic matters concerning electricity. |
| Achievement 3 | Can Understand the series-parallel connections of capacitance and capacitors almost perfectly. | Can Understand the calculate serial and parallel connection of capacitance and condenser correctly. | Can't Understand the calculate the series-parallel connection of capacitors |
学科の到達目標項目との関係
ディプロマポリシー DP2
説明
閉じる
MCCコア科目 MCCコア科目
説明
閉じる
ディプロマポリシー 1
説明
閉じる
教育方法等
概要:
Understand the basic explanation of electro-magnetic phenomena and the correct treatment of various laws and mathematical methods. In parallel with classroom lectures, students will be given an interest in electro-magnetic phenomena through presentation and demonstration by experimental equipment, etc., and will also explain individual cases that are full of home and social life.
授業の進め方・方法:
Conduct lectures by teachers alone, incorporate experiments, and strive to make the lectures visually understandable.
注意点:
In this subject, units are recognized based on an evaluation of 50 points or more. Those who have an evaluation of less than 50 points may take the confirmatory examination upon their request.
授業の属性・履修上の区分
授業計画
|
|
週 |
授業内容 |
週ごとの到達目標 |
| 前期 |
| 1stQ |
| 1週 |
Magnet and magnetic
|
Understand the force acting between the magnetic poles.
|
| 2週 |
Coulomb's law of magnetism
|
Understand the Coulomb's law of magnetism.
|
| 3週 |
Magnetic induction and magnetic shielding |
Understand the action of magnets to magnetize iron
|
| 4週 |
Current and the magnetic field
|
Understand the magnetic flux density is the magnetic flux per unit area.
|
| 5週 |
Current and the magnetic field |
Understand the phenomenon in which a magnetic field is generated around the conductor when the electric current is applied to the conductor.
|
| 6週 |
Magnitude and orientation of electromagnetic force |
Understand the direction of the electromagnetic force obeys the Fleming left hand rule.
|
| 7週 |
Electromagnetic induction and induced electromotive force |
Understand the phenomenon in which the induced electromotive force is generated when the magnetic field is traversed by the conductor.
|
| 8週 |
Mid-term exams |
|
| 2ndQ |
| 9週 |
Charging phenomenon |
Understand the friction moves the electrons of the substance to the other
|
| 10週 |
Coulomb's law of static electricity |
Understand the Coulomb's law of static electricity.
|
| 11週 |
Electric field and electrical power |
Understand the electrostatic charge is applied to the electric field when it is charged.
|
| 12週 |
Capacitance |
Understand the charge is stored between the 2 electrode plates
|
| 13週 |
Series connection of the capacitor |
Understand the series connection of the capacitor.
|
| 14週 |
Parallel connection of capacitors |
Understand the parallel connection of the capacitor.
|
| 15週 |
Term examination
|
|
| 16週 |
Return and commentary of the term examination |
|
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 | 電気回路 | 電荷と電流、電圧を説明できる。 | 2 | |
| オームの法則を説明し、電流・電圧・抵抗の計算ができる。 | 2 | |
| キルヒホッフの法則を用いて、直流回路の計算ができる。 | 2 | |
| 合成抵抗や分圧・分流の考え方を用いて、直流回路の計算ができる。 | 2 | |
| ブリッジ回路を計算し、平衡条件を求められる。 | 2 | |
| 電力量と電力を説明し、これらを計算できる。 | 2 | |
| 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。 | 2 | |
| 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。 | 2 | |
| 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。 | 2 | |
| 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。 | 2 | |
| コンデンサの直列接続、並列接続を説明し、その合成静電容量を計算できる。 | 2 | |
| 磁性体と磁化及び磁束密度を説明できる。 | 2 | |
| 電流が作る磁界をビオ・サバールの法則を用いて計算できる。 | 2 | |
| 電流が作る磁界をアンペールの法則を用いて計算できる。 | 2 | |
| 磁界中の電流に作用する力を説明できる。 | 2 | |
| 電磁誘導を説明でき、誘導起電力を計算できる。 | 2 | |
| 自己誘導と相互誘導を説明できる。 | 2 | |
| 自己インダクタンス及び相互インダクタンスを求めることができる。 | 2 | |
評価割合
| Examination | Presentation | Mutual Evaluations between students | Behavior | Portfolio | Other | 合計 |
| 総合評価割合 | 100 | 0 | 0 | 0 | 0 | 0 | 100 |
| Basic Proficiency | 100 | 0 | 0 | 0 | 0 | 0 | 100 |
| Specialized Proficiency | 0 | 0 | 0 | 0 | 0 | 0 | 0 |
| Cross Area Proficiency | 0 | 0 | 0 | 0 | 0 | 0 | 0 |