Description
Content:
This module applies the theories of statics to the analysis of the mechanical behaviour of basic deformable structures subjected to external loads.
The module is a natural continuation from the modules MECH0003 Introduction to Mechanical Engineering and MECH0006 Engineering Dynamics, which are studied in the first year of the Mechanical Engineering undergraduate programme. It aims to provide students with an engaging theoretical foundation enabling them to determine the response of engineering structures to external mechanical actions, the resulting deformations and the state of stress and strain produced into the structure’s components. Students will also acquire the ability to predict and prevent common forms of structural static failure in basic engineering components.
Teaching Delivery:
- Usually weekly in person lectures covering the theoretical and basic course material.
- Exercise sheets requiring self-study and written work are given weekly, and regularly revised at feedback sessions.
- A group coursework, with applications of the module learning.
Indicative Topics:
Topics covered in the module include:
- Bending of beams
- Plastic collapse
- Energy methods (principle of virtual work)
Module Objectives:
Upon completion of this module students should be able to:
- Demonstrate knowledge and understanding of the essential concepts, theories and principles underlying the mechanics of solid bodies.
- Analyse the response of beam structures to lateral and axial loads; apply the plastic theory of collapse; analyse the collapse of portal frames.
- Apply appropriate quantitative science, engineering and mathematical tools to the solution of problems in structural engineering.
- Demonstrate creative and innovative ability in the synthesis of theoretical solutions, and linking them to the design of real-world structures.
- Solve structural engineering problems, communicate and effectively source background resources and materials required for self-learning.
Module deliveries for 2024/25 academic year
Last updated
This module description was last updated on 19th August 2024.
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