200 algorithm-development-"Prof"-"Washington-University-in-St"-"Prof"-"Prof" positions at University of Nottingham in United Kingdom
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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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into their structure. However, we don’t yet know how to design these complex printed parts and we are still developing new leading-edge materials to grant them new capabilities. Advantages: In this PhD studentship, you
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, willingness to develop new skills, and interest in developing a long-term research career in forensic/occupational psychology. Additional essential and desirable criteria are listed in the Role Profile
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: For staff on fractional contracts they will working during university term times but will be off on paid leave during Christmas, Summer and Easter. Ongoing support to develop your skills and gain industry
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. - Ongoing support to develop your skills and gain industry recognised qualifications. - Ongoing support to develop your skills and gain industry recognised qualifications. - Employee Assistance Programme and
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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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, willingness to develop new skills, and interest in developing a long-term research career in forensic neuroscience. The post holder will lead on recruitment, psychometric assessment, neuropsychological testing
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of Nottingham, where you 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
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-month fixed term contract. You will provide day-to-day support to the financial accountants and the Head of Corporate Finance, at an operational and project level. You will develop your technical
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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