142 master-"https:"-"https:"-"https:"-"https:"-"BioData"-"BioData"-"BioData" positions at University of Sheffield
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leading plant science clusters, with access to advanced growth, imaging, genomics and computing platforms. Main duties and responsibilities Design, plan, and conduct experiments in controlled laboratory
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on a novel, multi-disciplinary project that integrates cutting edge remote sensing techniques, plant physiology and micrometeorology experiments within an engineering green infrastructure framework. Main
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experimental physics. The primary objectives are: 1. Establish a Robust Evidence Base: Conduct a large-scale, mixed-methods study across UK schools and colleges. This involves surveying students in Years 12 and
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Association of Project Management (APM). Meaning we continuously train, support and encourage the Project Management team at the AMRC. Main duties and responsibilities Supporting the group in scoping, planning
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, multi-skilled approach as your driving contribution will be deployed according to service delivery requirements. Main duties and responsibilities Carry out daily maintenance and checks on the allocated
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. The primary component of the cytoskeleton is filamentous actin, which interacts with numerous proteins to generate and respond to mechanical forces within cells. Actin filaments are inherently polarised
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an appropriate area of biology. Expertise in developing bioinformatic pipelines and experience of phylogenomic analysis are also essential Main duties and responsibilities Lead bioinformatic and phylogenomic
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breakthrough by extending DLO to full 3D shell structures, paving the way for new advances in real-time analysis and AI-powered workflows. The project contains two main streams of work: Numerical modelling
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groups comprise experts in the two main disciplines of the project, notably electrical machine condition monitoring and diagnostics (SoEEE) and machine learning for engineering and monitoring (SoMAC
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. The main differences between the two materials and processes are that injection moulding is dominated by shear flows, where compression moulding is dominated by squeeze flows. In addition, high-performance