Postgraduate Course: Analytical Fluid Mechanics (MSc) (PGEE11054)
Course Outline
School | School of Engineering |
College | College of Science and Engineering |
Course type | Standard |
Availability | Not available to visiting students |
Credit level (Normal year taken) | SCQF Level 11 (Postgraduate) |
Credits | 10 |
Home subject area | Postgrad (School of Engineering) |
Other subject area | None |
Course website |
None |
Taught in Gaelic? | No |
Course description | This course introduces analytical concepts and approaches in classical fluid mechanics. Main topics include boundary layers, turbulence, potential flow and aerofoils. |
Entry Requirements (not applicable to Visiting Students)
Pre-requisites |
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Co-requisites | |
Prohibited Combinations | |
Other requirements | None |
Additional Costs | n/a |
Course Delivery Information
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Delivery period: 2012/13 Semester 1, Not available to visiting students (SS1)
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WebCT enabled: Yes |
Quota: None |
Location |
Activity |
Description |
Weeks |
Monday |
Tuesday |
Wednesday |
Thursday |
Friday |
King's Buildings | Lecture | JCMB 6301 | 1-11 | | 11:10 - 12:00 | | | | King's Buildings | Tutorial | Classroom 10, Alrick Building | 1-11 | | 12:10 - 13:00 | | | | King's Buildings | Lecture | Ashworth Labs LT3 | 1-11 | | | 09:00 - 09:50 | | |
First Class |
First class information not currently available |
Exam Information |
Exam Diet |
Paper Name |
Hours:Minutes |
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Main Exam Diet S1 (December) | | 1:30 | | |
Summary of Intended Learning Outcomes
On completion of the course, students should be able to:
1. describe the flowfield round a typical body immersed in a flow;
2. explain how lift and drag forces arise from the interaction the body and flow;
3. define and explain the practical significance of circulation, vorticity, transition, separation;
4. analyse simple potential flow models;
5. describe analytical models of turbulence, and derive the simpler solutions based on the mixing-length model;
6. explain the concept of the boundary layer, and why it is useful;
7. define the various forms of boundary layer thickness, explain their significance, and derive their values from given velocity profiles;
8. use the von Karman equation to obtain quantitative solutions for laminar and turbulent boundary layers with uniform external flows;
9. describe boundary layer behaviour with non-uniform external flows, and explain how it might be predicted;
10. describe methods of boundary layer control in low drag and high lift applications;
11. use tools, knowledge and insight into physical fluid mechanic phenomena gained in 1-10 (above) to build and critically appraise suitable analytical models for complex flow scenarios of mechanical engineering relevance. |
Assessment Information
Final Examination (100%) |
Additional Information
Academic description |
Not entered |
Syllabus |
Not entered |
Transferable skills |
Not entered |
Reading list |
Not entered |
Study Abroad |
Not entered |
Study Pattern |
Not entered |
Keywords | fluid mechanics analytical |
Contacts
Course organiser | Dr Tom Bruce
Tel: (0131 6)50 8701
Email: |
Course secretary | Mrs Laura Smith
Tel: (0131 6)50 5690
Email: |
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© Copyright 2012 The University of Edinburgh - 6 March 2012 6:23 am
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