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Electromagnetic Technologies (MCEN90044)
Graduate courseworkPoints: 12.5On Campus (Parkville)
Overview
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Electromagnetic components, such as motors, generators, actuators and sensors are critical to many growth industries. These industries include: Robotics, Automotive, Biomedical, Renewables, Aerospace and Agriculture. Electromagnetic Technologies aims to provide students with the knowledge and skills to design electromagnetic devices from first principles and to utilise such components in the appropriate manner for industrial solutions.
This subject will introduce students to the fundamentals of electromagnetic theory before exposing them to a range of industry focussed design projects. For these projects, the students will be expected to:
• Understand the context of the component design requirements
• Formulate the design in a way that allows theoretical analysis
• Conduct the analysis
• Utilise the analysis to design or select (and where possible build) the component
• Take measurements to compare the experimental performance against the theory
The subject also provides wider background knowledge of design engineering, exposing students to industry standard methods of information gathering, analysis and selection.
Topics covered include:
• Electromagnetic theory
• Finite-element methods
• Magnetic actuators
• Electric motor design
• Thermal analysis
• Acoustic analysis
• Electromagnetic sensors
Intended learning outcomes
At the conclusion of this subject students should have the skills to:
- Apply fundamental mathematical tools to model, analyse and design electromagnetic systems
- Understand the capabilities and availability of electromagnetic devices
- Select appropriate components from commercially available options
- Design new components where existing options are not available
- Understand and apply relevant electromagnetic theories
- Validate designs to confirm the accuracy of theoretical analysis
- Communicate effectively a proposed solution to an industrial problem based on rigorous technical justifications.
Last updated: 3 November 2022