Module Information

Module Identifier

MA34610

Module Title

Hydrodynamics ii

Academic Year

2017/2018

Co-ordinator

Professor Simon Cox

Semester

Semester 1

Pre-Requisite

MA25610 or MT25610

Other Staff

Professor Simon Cox

Course Delivery

Delivery Type	Delivery length / details
Lecture	22 x 1 Hour Lectures

Assessment

Assessment Type	Assessment length / details	Proportion
Semester Exam	2 Hours (Written Examination)	100%
Supplementary Exam	2 Hours (Written Examination)	100%

Learning Outcomes

On completion of the module, a student should be able to:
1. determine the stream function for the flow of an inviscid fluid past body;
2. determine the velocity potential for an irrrotational flow;
3. establish Blasius's equation and apply it to the flow past various shapes, including aerofoils;
4. calculate image systems and apply them to the determination of flow past bodies;
5. determine complex potential functions of incompressible irrotational fluid flows.

Brief description

This module continues the development of fluid mechanics, begun in MA25610, and deals in particular with the theory of two-dimensional motion and aerofoil theory.

Aims

To continue with the development of fluid mechanics, in particular the theory of two-dimensional motion and aerofoil theory, and to relate it to many natural and everyday events, for example: why an aeroplane in flight is able to defy gravity.

Content

1. Stream functions in two- and three-dimensional hydrodynamics.
2. Complex variable techniques in two-dimensional hydrodynamics: method of images.
3. Conformal transformations; Joukowski transformation; Schwarz-Christoffel transformation.
4. Blasius's theorems for the force and moment on a body in a stream.
5. Applications to aerofoil theory.

Notes

This module is at CQFW Level 6