Course/Module
Teacher, 1M Fluid Mechanics. (Undergraduate)
Teacher, 2M Computing. (Undergraduate)
Teacher, 3M Fluid Mechanics. (Undergraduate)
Fluid Mechanics 3 - MECH96006
Aims
- To provide an understanding of Fluid Mechanics from a general and fundamental viewpoint
- To outline an approach for solving fluid mechanical problems
- To provide an understanding of the properties of turbulence
- To outline possible methods behind the modelling of turbulence
- To provide an introduction to energy and work in fluid dynamics for incompressible, sub-sonic and trans-sonic compressible flows
- To outline the nature and properties of normal and oblique shocks.
ECTS units: 5
Role
Associate Course Leader
Fluid Mechanics 3B - MECH70011
Aims
- To provide an understanding of Fluid Mechanics from a general and fundamental viewpoint
- To outline an approach for solving fluid mechanical problems
- To provide an understanding of the properties of turbulence
- To outline possible methods behind the modelling of turbulence
- To provide an introduction to energy and work in fluid dynamics for incompressible, sub-sonic and trans-sonic compressible flows
- To outline the nature and properties of normal and oblique shocks.
ECTS units: 5
Role
Associate Course Leader
Mathematics and Computing 1 - MECH40008
Aims
This module develops key mathematical and computational skills relevant to the wider mechanical engineering programme.
Topics include vector algebra, real analysis, limits, curve sketching, series, applications of integration, complex analysis, functions of more than one variable, matrix algebra, second order ordinary differential equations, and vector calculus . Practical implementation through programming is studied to solve problems selected from the topic areas. These skills are in support of ME1, ME2, ME3 and ME4 modules.
ECTS: 15
Role
Lecturer
Fluid Mechanics 3A - MECH60006
Aims
- To provide an understanding of Fluid Mechanics from a general and fundamental viewpoint
- To outline an approach for solving fluid mechanical problems
- To provide an understanding of the properties of turbulence
- To outline possible methods behind the modelling of turbulence
- To provide an introduction to energy and work in fluid dynamics for incompressible, sub-sonic and trans-sonic compressible flows
- To outline the nature and properties of normal and oblique shocks.
ECTS units: 5
Role
Associate Course Leader