Last modified: 23 Jul 2024 10:44
Wave equations describe transient phenomena commonly encountered in all areas of engineering. This course covers: (i) elastic waves, such as response of offshore structures to wind or wave loading, earthquakes; (ii) acoustic waves such as water hammer in pipelines, micro-pressure waves in railway tunnels; (iii) electromagnetic waves, such as signals in transmission lines, transient states in DC cables. These phenomena in real world engineering applications are simulated using several numerical methods. Students develop their own simulation codes using Matlab or any other programming language, and run a series of simulations for the problem of their choice.
Study Type | Undergraduate | Level | 5 |
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Term | First Term | Credit Points | 15 credits (7.5 ECTS credits) |
Campus | Aberdeen | Sustained Study | No |
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Course Aims
To introduce MEng students to a selection of advanced engineering analysis techniques, applicable over a range of engineering disciplines.
Main Learning Outcomes
By the end of the course students should:
A) have knowledge and understanding of:
• simple harmonic oscillations of single mechanical or electrical systems; coupled oscillations of two systems; coupled oscillations of many systems
• longitudinal and transverse travelling waves
• waves in elastic media and electromagnetic waves
• boundary conditions and reflection of waves
• characteristic form of linear hyperbolic equation and its meaning in context of wave propagation in a physical system
• fundamental principles underlying numerical methods suitable for solving linear hyperbolic equations
B) have gained intellectual skills so that they are able to:
• confidently analyse engineering problems related to waves, based on a sound understanding of fundamental principles
• analyse elastic waves in solids
• analyse transient states in transmission lines
• analyse transient pipe flow
• formulate approximate form of linear hyperbolic equations according to various numerical methods
C) have gained practical skills so that they are able to:
• use MATLAB to solve numerically wave equations describing various difficult engineering problems (water hammer, propagation of acoustic waves, elastic waves, electro-magnetic waves)
D) have gained or improved transferable skills so that they are able to:
• use MATLAB as a general tool to aid analysis and understanding of engineering problems
• carry out critical analysis and assessment of the results of numerical solution of wave equations
Course Content
The course covers a range of numerical methods suitable for solving wave equations. The theoretical part of the course deals with the derivations of the wave equations using the principles of solid mechanics, fluid mechanics and electromagnetic theory. In order to explain the transition from discrete to continuous systems the derivations start from free oscillations of first single and then coupled simple systems. This is followed by extrapolation to a large number of coupled systems whose interaction results in travelling waves.
The applied part of the course focuses on the following engineering problems: elastic waves in a rigid body, transient pipe flow and transient states in transmission lines. Fundamental laws studied in the first part are generalised and expressed in conservative form. Characteristic form of hyperbolic equations is developed and related to the propagation of disturbances in physical systems. The final part of the course covers several numerical methods suitable for solving hyperbolic equations. The methods are used to build simulation codes which can be used for solving a broad range of engineering problems.
Students carry out practical exercises using MATLAB for coding numerical solutions of wave equations.
Information on contact teaching time is available from the course guide.
Assessment Type | Summative | Weighting | 65 | |
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Assessment Type | Summative | Weighting | 35 | |
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There are no assessments for this course.
Assessment Type | Summative | Weighting | ||
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Factual | Remember | ILO’s for this course are available in the course guide. |
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