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the quality of the evidence gathered above to inform future research and the uncertainty incorporated into the modelling process. You will also be expected to contribute to the formulation and submission
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, home-built electronics, optical beam profiling and data acquisition and control systems. A significant part of the process is liaising with the many different partners in the project – sub-system
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physical measures (e*.g. weight and height*), tissue/fluid samples and study associated administration. Data collection will be completed in a variety of community locations (e.g. participant homes, schools
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the process of completing this OR about to complete or recently completed higher degree (within one year (WTE). Desirable: B1 BSc or equivalent in medicine or other relevant subject B2 MSc in relevant subject
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and Condensed Matter Physics research group, including current instrumentation and research interests, see: https://www.gla.ac.uk/schools/physics/research/groups/mcmp/ Main Duties and Responsibilities
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Statistics at the University of Glasgow. This project is funded by the Engineering and Physical Sciences Research Council (EPSRC) and is available for a period of 30 months. The successful candidate will also
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optimization of superconducting devices C2 Modelling skills of multi-physics characterization of superconducting application C3 Research creativity and cross-discipline collaborative ability as appropriate C4
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(mathematics, physics, theoretical ecology or similar discipline with a strong quantitative component) A2 A comprehensive and up-to-date knowledge of dynamical systems theory, bifurcation analysis, population
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the electronics of triboelectrification or triboelectric nanogenerators. The position is part of a large international EPSRC funded project looking at the physics of triboelectric nanogenerators (TENGs
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and/or computational mechanics of materials and/or tribology. The position is part of a large international EPSRC funded project looking at the physics of triboelectric nanogenerators (TENGs