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| Module Availability |
| Autumn |
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| Assessment Pattern |
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Unit(s) of Assessment
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Weighting Towards Module Mark (%)
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Unseen examination
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100%
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Qualifying Condition(s)
An overall mark of 40% is required to pass the module.
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| Module Overview |
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| Prerequisites/Co-requisites |
This module will operate at MEng level and is a compulsory module for MEng students; BEng students are welcome to take this module as an option and should be able to cope with the material, provided they have achieved above 40% in ENG1001, ENG1008, ENG2002 and ENG2016 (or equivalent modules). |
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| Module Aims |
To study some aspects of engineering mechanics with an emphasis on the theoretical and mathematical background. |
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| Learning Outcomes |
By the end of the module students should be able to:
Deal with vectors and tensors.
Deal with 2D and 3D elasticity including yield criteria.
Deal with elastic plate theory and torsion of beams. |
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| Module Content |
Scalars, Vectors and Tensors: 2D and 3D Cartesian tensors, transformation of axes, principal values and invariants.
Plane stress: Equilibrium, compatibility, material rules, simple solutions, visualisation of stress fields.
Plate theory: bending and twisting moments, curvature and twist, equilibrium equation, simple solutions, boundary conditions.
3D Elasticity: Yield criteria.
Beam theory: Distortion and warping, torsion of solid and thin wall sections. |
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| Methods of Teaching/Learning |
24 hours of lectures, 12 hours of tutorial classes, and 64 hours independent learning.
Total student learning time 100 hours. |
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| Selected Texts/Journals |
Ugural AC and Fenster SK, Advanced Strength and Applied Elasticity (SI version), Prentice Hall, 1994. (ISBN 01313 7589X) |
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| Last Updated |
| 13 October 2009 |
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