201 algorithm-development-"Multiple"-"Simons-Foundation"-"Prof"-"University-of-Southampton" positions at University of Nottingham
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activities designed to enhance the university experience for Black students, bringing together initiatives such as self-development courses, alumni mentoring (Black Industry Connections and Empowerment
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respond over time (e.g. changing shape), controlled by the arrangement of differential materials within them. The goal of this project will be to develop responsive 4D-printed biomaterial devices for drug
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As Associate Professor of Medical Education and Lead for Year 1, you will take a senior leadership role in developing, delivering, and overseeing the first year of the five-year Undergraduate
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you will have the opportunity to contribute to the development of cutting-edge electrification technologies for power generation, marine, aerospace, and automotive applications. The role will involve
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responsibilities around cash and banking management. You will be responsible for ensuring the integrity of the University’s principal bank accounts. You will develop your technical accounting knowledge as we
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preparation. You will develop your technical accounting knowledge as we complete financial statements and other regulatory returns. About the team- Working alongside another Accountancy Assistant in
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will have the opportunity to contribute to the development of cutting-edge technologies for power generation, marine, aerospace, and automotive applications. You will be involved in commissioning and
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conduct the research activities into the computational fluid dynamics simulation and optimisation of vortex reactors. You will develop physical and numerical models for the three-dimensional simulation
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contract An excellent holiday allowance: 27 days (pro-rata), plus additional university closure days and bank holidays. Ongoing support to develop your skills and gain industry recognised qualifications
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or temperature. This project will develop the materials, methods, and designs necessary to 3D-print the next generation of electro-responsive soft-actuators. The overall aim is to develop and exploit new designs