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Field
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timely opportunity to rethink the role of the electric motor within the drivetrain. Alternative machine topologies such as axial flux, transverse flux, and homopolar designs offer unique advantages by
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engineering, digital technologies, and systems thinking. The university’s strong reputation for applied research and its focus on technological innovation ensure that this project will be well-supported, with
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innovation and find diverse applications across industries such as aerospace, energy, and automotive. Among its various techniques, wire-arc directed energy deposition (WA-DED) stands out as a highly promising
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support. This project will investigate if a new home-based exercise programme can improve the quality of life of women returning to work after breast cancer. The programme will be co-designed with women who
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battery re-design and facility layout change. Both Omnifactory and the MTC have facilities that aim to enable the UKs long term strategy in electrification, providing a highly-automated battery assembly and
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Do you want to design and construct synthetic life-like cells? A major goal of synthetic biology is to create life-like artificial cells from non-living components, i.e. the bottom-up approach
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to predict coastal wetland restoration success. Successful candidate will first construct sensors using microcontrollers (e.g., Arduinos and peripheral sensors). These sensors will be designed to measure key
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surfaces, captured using wearable technology. Proposals should state why there is a need for further investigation in the chosen area, along with an initial research question(s) and plan. The project and
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to advance understanding of the underlying physical mechanisms. College / Directorate College of Engineering, Design & Physical Sciences Department Department of Mechanical and Aerospace Engineering
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Are you ready to push the boundaries of engineering innovation and accelerate the world’s transition to carbon-neutral energy systems? Join the Thermofluids Group in the School of Mechanical