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Undergraduate |
(SCI)
|
Leader: Associate Professor Hans Lausch
Offered:
Clayton First semester 2006 (Day)
Synopsis: The basic equations of fluid dynamics; Cartesian tensors, the viscous stress tensor; equations of state; linearisation, sound and internal gravity waves; phase and group velocity; non-linear evolution; shocks; computational methods; Bernoulli's equation; vorticity and circulation; Kelvin's circulation theorem; rotational and irrotational flow; two dimensional homogenous incompressible flow; viscous effects and boundary layers; separation from a ball, with applications to cricket, golf and baseball; flow in a rotating reference frame, geostrophic flow.
Objectives: On completion of this unit, students will: understand the scope of fluid dynamics in the physical sciences; understand the method of linearisation, and its application to waves in fluids; understand the physical reasons why waves may shock, and the nature of the developed shocks after they do; be familiar with the blast wave solutions, and the method of similarity; be aware of several basic numerical methods for one dimensional gas dynamics, as well as their strengths and limitations; understand how the fluid equations can be simplified for the case of an inviscid incompressible flow and be able to determine some simple irrotational flows; understand the effects of viscosity on high-speed flow, including the formation and behaviour of boundary layers; be familiar with the properties of rotating flows and the importance of the geostrophic approximation to flows on the surface of the Earth.
Assessment: Examination (3 hours): 60% + Assignments: 20% + Tests: 20%
Contact Hours: Three 1-hour lectures and an average of two 1-hour support classes per week
Prerequisites: MTH2010 and MTH2032 or equivalent
Prohibitions: ASP3021, ASP3062, ATM3062, MAT3121, MAT2102, MAT3102, ATM3132, ATM3172, MTH3362