到達目標
(1) To understand the basic laws of fluid statics and fluid dynamics.
(2) To understand specific characters of a turbo-machinery mounted on a ship.
(3) To obtain an ability to explain a basic concept and usage of functional-fluid for a ship.
ルーブリック
| Ideal Level of Achievement (Very Good) | Standard Level of Achievement (Good) | Unacceptable Level of Achievement (Fail) |
Evaluation 1 | To solve problems using the basic laws of fluid statics and fluid dynamics. | To understand the basic laws of fluid statics and fluid dynamics. | Not to understand the basic laws of fluid statics and fluid dynamics. |
Evaluation 2 | To analyse specific characters of a turbo-machinery mounted on a ship. | To understand specific characters of a turbo-machinery mounted on a ship. | Not to understand specific characters of a turbo-machinery mounted on a ship. |
Evaluation 3 | To explain a basic concept and usage of functional-fluid for a ship. | To know a basic concept and usage of functional-fluid for a ship. | Not to known a basic concept and usage of functional-fluid for a ship. |
学科の到達目標項目との関係
教育方法等
概要:
Knowledge of the fluid dynamics is indispensable for maritime engineers to manage a ship effectively and safely. In applied dynamics , students intended to learned the essential knowledge of fluid statics such as static pressure, the buoyancy, and the concept of cardinal laws of fluid dynamics such as consutitutive equation of continuity or Bernoulli's theorem and the application, drag and the lift in the ship management. In this lecture, I teach further applications of fluid dynamics for maritime engineer based on these concepts.
授業の進め方・方法:
Course study composes lectures, exercises and quizzes
注意点:
The student with less than in 60 points of evaluations can take a ratification examination by application. The student who passed an examination can get 60 points. I evaluate a result of the regular examination(80%) and exercises(20%).
授業計画
|
|
週 |
授業内容 |
週ごとの到達目標 |
前期 |
1stQ |
1週 |
Fluid statics |
To understand basic concepts of fluid statics
|
2週 |
Pascal's theorem and amplification action of force |
To understand Pascal's theorem and calculation method of force amplification using piston and cylinder
|
3週 |
Applied force from static fluid |
To understand how to calculate buoyancy and applied force on pressure bulkhead
|
4週 |
Flow rate and equation of continuity I |
To understand how to calculate flow rate and use equation of continuity
|
5週 |
Flow rate and equation of continuity II |
To calculate flow rates flowing in and out from turbo machine.
|
6週 |
Bernoullie's theorem |
To understand the concept of bernoulli's theorem and how to use it in a ship
|
7週 |
Lift and drag |
To understand Lift and Drag actiong on a ship
|
8週 |
Mid-term examination |
|
2ndQ |
9週 |
Basics of turbo machine |
To understand an overview of turbo machine used in ship
|
10週 |
Conservation law of angular momentum |
To understand a conservation lawa of angular momentum for analysis of action in turbo machine
|
11週 |
Velocity triangle |
To understand a velocity triangle for analysis of turbo machine
|
12週 |
Specifications of turbo machine |
To understand how to analyze a specification of Propeller on ship as an example of turbo machine
|
13週 |
Basics of functional fluid |
To understand an overview of functional fluids
|
14週 |
Application of functional fluid for Ship |
To know applications of functional fluids in ship
|
15週 |
Term-end examination |
|
16週 |
Confirmation of exam result and record |
|
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 |
評価割合
| Examination | Exercise | 合計 |
総合評価割合 | 80 | 20 | 100 |
Basic Ability | 0 | 0 | 0 |
Technical Ability | 80 | 20 | 100 |
Interdisciplinary Ability | 0 | 0 | 0 |