Fluid Mechanics 2 |
KOROYASU, Sadatoshi |
Elective Requisites 2 credits |
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【Mechanical and Precision System・2nd semester】
19-1-0182-2009 |
1. |
Outline |
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The studies of the viscous fluid flow, the design method of a pipeline and the hydrodynamic force around body.Group discussion is allowed when report is prepared at every exercise.In this lesson, we mainly acquire knowledge about DP1.
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2. |
Objectives |
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The study of phenomena of fluid flow as a basis for mechanical engineer.
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3. |
Grading Policy |
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A total of 60% or more from the result of the exercise in every lecture and the total exercise is regarded as passing. Reports on exercises from every lecture (80%), general exercises (20%)
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4. |
Textbook and Reference |
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Nothing.
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5. |
Requirements (Assignments) |
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We will apply the contents of previous lectures often, please read and review essential points in the notes (30 minutes). Preparation for each lesson : Contents and amount of preparation will be advised in writing, etc. at the end of the last lesson.
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6. |
Note |
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Nothing.
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7. |
Schedule |
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1. Outline of fluid dynamics 2 |
2. Derivation of Navier Stokes equation |
3. Application of Navier Stokes equation (flat plate) |
4. Application of Navier Stokes equation (pipe) |
5. Application of Navier Stokes equation (unsteady state) |
6. Turbulent velocity distribution (logarithmic law) |
7. Turbulent velocity distribution (power law) |
8. Open channel flow |
9. Boundary layer theory 1 |
10. Boundary layer theory 2 |
11. Flow around object (slow flow) |
12. Flow around object (fast flow) |
13. Flow around object (wind tunnel experiment) |
14. Similarity law of flow |
15. Total exercises and summary |
|
1. |
Outline |
|
The studies of the viscous fluid flow, the design method of a pipeline and the hydrodynamic force around body.Group discussion is allowed when report is prepared at every exercise.In this lesson, we mainly acquire knowledge about DP1.
|
2. |
Objectives |
|
The study of phenomena of fluid flow as a basis for mechanical engineer.
|
3. |
Grading Policy |
|
A total of 60% or more from the result of the exercise in every lecture and the total exercise is regarded as passing. Reports on exercises from every lecture (80%), general exercises (20%)
|
4. |
Textbook and Reference |
|
Nothing.
|
5. |
Requirements (Assignments) |
|
We will apply the contents of previous lectures often, please read and review essential points in the notes (30 minutes). Preparation for each lesson : Contents and amount of preparation will be advised in writing, etc. at the end of the last lesson.
|
6. |
Note |
|
Nothing.
|
7. |
Schedule |
|
1. Outline of fluid dynamics 2 |
2. Derivation of Navier Stokes equation |
3. Application of Navier Stokes equation (flat plate) |
4. Application of Navier Stokes equation (pipe) |
5. Application of Navier Stokes equation (unsteady state) |
6. Turbulent velocity distribution (logarithmic law) |
7. Turbulent velocity distribution (power law) |
8. Open channel flow |
9. Boundary layer theory 1 |
10. Boundary layer theory 2 |
11. Flow around object (slow flow) |
12. Flow around object (fast flow) |
13. Flow around object (wind tunnel experiment) |
14. Similarity law of flow |
15. Total exercises and summary |
|
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