NCHU Course Outline
Course Name (中) 流體力學導論(6731)
(Eng.) Fundamentals of Fluid Mechanics
Offering Dept Department of Mechanical Engineering
Course Type Elective Credits 3 Teacher Keng-Lin Lee
Department Department of Mechanical Engineering / Graduate Language Chinese 英文/EMI Semester 2025-FALL
Course Description 本研究所課程涵蓋流體力學的核心概念與理論,從基本流體性質和流體運動學入門,逐步學習流體統御方程式及其精確解與相關應用。隨後,課程將深入探討流體的進階分析及重要物理現象,包括因次分析與相似性的概念、無黏性流的流動特性、邊界層理論、流動分離現象以及低雷諾數流動的特性。透過這些主題的系統學習,學生將具備分析和解決複雜流體力學問題的能力,為未來高階研究與實務應用奠定堅實基礎。
Prerequisites
self-directed learning in the course Y
Relevance of Course Objectives and Core Learning Outcomes(%) Teaching and Assessment Methods for Course Objectives
Course Objectives Competency Indicators Ratio(%) Teaching Methods Assessment Methods
1.探討基本的流體力學現象與原理。
2.連結流體力學數學模式與物理現象之關係。
1.The ability to solve engineering problems independently with professional knowledge in mechanical engineering.
2.The ability to think innovatively, to design and conduct researches, as well as to present research outcomes.
3.The ability to manage multi-disciplinary teams and to integrate cross-field technologies..
6.The knowledge of professional ethics and social responsibilities of a mechanical engineer.
50
15
15
20
Lecturing
Assignment
Quiz
Course Content and Homework/Schedule/Tests Schedule
Week Course Content
Week 1 1. 基本概念(Fundamental concepts)
Week 2 2. 流體運動學(Fluid kinematics)
Week 3 2. 流體運動學(Fluid kinematics)
Week 4 3. 統御方程式(Governing equations)
Week 5 3. 統御方程式(Governing equations)
Week 6 4. NS方程的精確解(Exact solutions of the Navier-Stokes equations)
Week 7 4. NS方程的精確解(Exact solutions of the Navier-Stokes equations)
Week 8 5. 因次分析與相似性(Dimensional analysis and similarity)
Week 9 Midterm exam
Week 10 6. 無黏性流(Inviscid flow)
Week 11 6. 無黏性流(Inviscid flow)
Week 12 6. 無黏性流(Inviscid flow)
Week 13 7. 邊界層流(Boundary layer flow)
Week 14 7. 邊界層流(Boundary layer flow)
Week 15 7. 邊界層流(Boundary layer flow)
Week 16 Final exam
self-directed
learning
   02.Viewing multimedia materials related to industry and academia.

Evaluation
Homework 30-40%, Midterm exam 30%, Final exam 30-40%
Textbook & other References
Lecture notes refer to the following textbooks:

Undergraduate level:

Munson, Young, and Okiishi, Fundamentals of Fluid Mechanics SI 9/e
Cengel, Cimbala, Fluid Mechanics Fundamentals and Applications 4/e
Anderson, J. D., Fundamentals of Aerodynamics, McGraw-Hill

Graduate level:

Currie, I. G., Fundamental Mechanics of Fluids, McGraw-Hill, New York.
Panton, R. L., Incompressible Flow, John Wiley & Sons.
Kundu, P. K., Cohen, I. M., and Dowling, D. R., Fluid Mechanics, Academic press, Elsevier
Batchelor, G. K., An Introduction to Fluid Dynamics, Cambridge University Press, Cambridge.

Fluid phenomenon images:

Van Dyke, M., An Album of Fluid Motion, The Parabolic Press, Stanford, California.
Teaching Aids & Teacher's Website
自編筆記、iLearning 數位教學平台
Office Hours
星期三-下午15:00-17:00
Sustainable Development Goals, SDGs(Link URL)
08.Decent Work and Economic Growth   09.Industry, Innovation and Infrastructureinclude experience courses:N
Please respect the intellectual property rights and use the materials legally.Please respect gender equality.
Update Date, year/month/day:2025/06/24 14:20:53 Printed Date, year/month/day:2025 / 8 / 09
The second-hand book website:http://www.myub.com.tw/