Module Information

Module Identifier

MX35610

Module Title

Hydrodynamics 1

Academic Year

2015/2016

Co-ordinator

Professor Simon Cox

Semester

Semester 2

Mutually Exclusive

MA25610

Mutually Exclusive

MT25610

Pre-Requisite

MP26020 or FG26020

Other Staff

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 this module, a student should be able to:
1. explain the notions of local and convected rates of change;
2. derive the equations governing the flow of an ideal fluid;
3. apply and solve the governing equations in specific situations.

Brief description

This module introduces and develops the basic concepts of Classical Hydrodynamics and provides a framework for a modern appreciation of Fluid Mechanics.

Aims

To provide the basic framework for a modern appreciation of Fluid Dynamics. To introduce the basic concepts of Classical Hydrodynamics. To explain how mathematical modelling of fluid motion ca help in the understanding of certain real world phenomena in applications such as meteorology and aerodynamics.

Content

1. Basic concepts: Velocity, acceleration, pressure, density.
2. Review of vector calculus and coordinate systems.
3. Eulerian and Lagrangian reference systems.
4. Kinematics of fluid motion: Pathlines, streamlines, streaklines, vorticity, etc.
5. Basic equations governing fluid motion.
6. Applications of Bernoulli's equation.
7. Foundations of classical hydrodynamics: Kelvin's theorems; Irrotational flow.
8. Incompressibility: Potential flow.
9. Simple hydrodynamic structures in 3D: Sources, sinks, doublets etc.
10. Introduction to the concept of image systems.
11. Some classical problems.

Notes

This module is at CQFW Level 6