Course Objectives
At the completion of this course, students will be able to
(1) Understand laminar flow and turbulent flow
(2) Understand
(3) Understand Lift force and Drag force due to fluid flow
Rubric
| Ideal Level of Achievement | Standard Level of Achievement | Unacceptable Level of Achievement) |
| Evaluation 1 | Can understand laminar flow and turbulent flow
correctly. | Can understand laminar flow and turbulent flow | Can not understand laminar flow and turbulent flow |
| Evaluation 2 | Can understand various losses lost in curved pipes and pipelines correctly. | Can understand various losses lost in curved pipes and pipelines | Can not understand various losses lost in curved pipes and pipelines |
| Evaluation 3 | Can understand Lift force and Drag force due to fluid flow correctly. | Can understand Lift force and Drag force due to fluid flow | Can not understand Lift force and Drag force due to fluid flow |
Assigned Department Objectives
Teaching Method
Outline:
Fluid dynamics is the academic expression of fluid motion and force by mathematical expressions. This course will focus on hydro dynamics, with the aim of acquiring knowledge useful for practical purposes.
Style:
Lecture and exercise
Notice:
Understand the fundamentals of physics (mechanics) and mathematics learned so far. In particular, remember basic differential and integral. If you can not understand the contents of this subject, try to ask questions at any time. Prepare a computer with trigonometric functions (sin, cos, tan), exponential function, logarithmic function calculation function. Those whose evaluation is less than 60 points can receive a follow-up program by submitting the approval test application. As a result of the follow-up program, for those who are allowed to acquire credits, the score is 60 points. Please note that the tracking program differs depending on the content that was not approved.The lesson plans may be changed according to the degree of understanding of the student.
Characteristics of Class / Division in Learning
Course Plan
|
|
|
Theme |
Goals |
| 1st Semester |
| 1st Quarter |
| 1st |
Guidance, Laminar flow (1) |
Concept of fluid dynamics, Viscosity and various viscous fluids
|
| 2nd |
Laminar flow (2) |
Laminar flow and Reynolds number inside pipe
|
| 3rd |
Laminar flow (3) |
Velocity, friction, pressure in laminar flow inside parallel wall
|
| 4th |
Turbulent flow (1) |
Turbulent flow inside pipe (1),
Smooth wall and coarse wall(1)
|
| 5th |
Turbulent flow (2) |
Turbulent flow inside pipe (2),
Smooth wall and coarse wall(2)
|
| 6th |
Turbulent flow (3) |
Friction coefficient of flow inside pipe
|
| 7th |
Turbulent flow (4) |
Pressure loss at non-circular section pipe and various parts of piping
|
| 8th |
Intermediate test |
Can understand the summary so far
|
| 2nd Quarter |
| 9th |
Answer of intermediate test,
Turbulent flow (5) |
Various losses due to changes in the cross-sectional area of the pipe
|
| 10th |
Turbulent flow (6) |
Various losses lost in curved pipes and pipelines
|
| 11th |
Turbulent flow (7) |
Bernoulli equation considering loss
|
| 12th |
Lift and Drag(1) |
Kalman vortex and Strouhal number
|
| 13th |
Lift and Drag(2) |
Relationship between aerofoil and lift force
|
| 14th |
Lift and Drag(3) |
Reynolds similarity law
|
| 15th |
Final examination |
Can understand the summary so far
|
| 16th |
Grade evaluation and confirmation, class evaluation questionnaire |
|
Evaluation Method and Weight (%)
| Examination | Presentation | Mutual Evaluations between students | Behavior | Portfolio | Exercise | Total |
| Subtotal | 70 | 0 | 0 | 0 | 0 | 30 | 100 |
| Basic Ability | 20 | 0 | 0 | 0 | 0 | 10 | 30 |
| Technical Ability | 50 | 0 | 0 | 0 | 0 | 20 | 70 |
| Interdisciplinary Ability | 0 | 0 | 0 | 0 | 0 | 0 | 0 |