wwwdev@monash.edu.au
Wed Oct 28 14:26:02 EST 1998
Auth: C Whip, University Webmaster's Office
Copyright © Monash University 1998 - All Rights Reserved - Caution
Coordinator: Dr Paul Cally
4 points - Two 1-hour lectures per week - Second semester - Clayton - Prerequisites: MAT2030, MAT2040, MAT2102 - Prohibitions: ATM3131, MAA3101
Objectives On the completion of this subject, students will understand the basis of the governing differential equations for compressible viscous flow; apply these equations to a wide range of physical situations; develop skills in solving the equations; appreciate the significance of the solutions in relation to properties of the fluid flow; recognise the role of computational solutions.
Synopsis The Navier-Stokes equations for compressible viscous flow. Dynamical similarity. Exact solutions for incompressible flow. Flow past rigid bodies at increasing Reynolds numbers. Acoustics and shock waves. Applications of computational fluid dynamics.
Assessment Examination (2 hours ): 85% - Assignments and class tests: 15%
Recommended texts
Acheson D J Elementary fluid dynamics OUP, 1990
Back to the 1999 Science Handbook
wwwdev@monash.edu.au
Wed Oct 28 14:26:02 EST 1998