48 affective-computing-"https:" "https:" "https:" "University of St" positions at Newcastle University
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device software case study. The project is particularly suitable for strong UK graduates interested in developing advanced research and technical skills while working on a problem with real societal impact
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universities and provide access to state-of-the-art technologies and resources, enabling students to test and implement their solutions in high-impact, real-world scenarios. Applicant skills/background The ideal
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and to study on this programme. How To Apply You must apply through the University’s Application Portal: https://applyto.newcastle.ac.uk/ In ‘Course choice’ tab: Type of Study - ‘Postgraduate Research
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· Interest/experience in health services research How To Apply You must apply through the University’s Application Portal: https://applyto.newcastle.ac.uk/ In ‘Course choice’ tab: Type of Study - ‘Postgraduate
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- 23:59 (UTC) Country United Kingdom Type of Contract Temporary Job Status Part-time Hours Per Week 37 Is the job funded through the EU Research Framework Programme? Not funded by a EU programme Is the
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relevant to the proposed PhD project (usually chemical engineering, but please get in touch if you think your qualification may be relevant). Enthusiasm for research, the ability to think and work
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principles. The proposed project will investigate the development of TCRs by studying the impact of geometries and microstructures on the hydrodynamics of reactants in chemical and/or catalytic reactions and
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tailored to site conditions and climate adaptation goals. This research offers real-world impact, reducing flood risk, enhancing urban green infrastructure, and shaping future design standards. Ideal
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framework to guide practitioners in selecting plants and designing rain gardens tailored to site conditions and climate adaptation goals. This research offers real-world impact, reducing flood risk, enhancing
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formation, compromising the enhancements achieved through the use of TC intensification principles. The proposed project will investigate the development of TCRs by studying the impact of geometries and