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computer program that will compute the cohomology of arithmetic groups for GL(2) over a definite rational quaternion algebras together with Hecke action. The second objective is to use this program to carry out
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for future therapeutic strategies. You will be trained in a diverse range of advanced techniques alongside conventional molecular biology and biochemistry methods. This includes the use of iPSC-derived
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predominantly qualitative; therefore you should have studied qualitative research methods at master’s level, and be familiar with qualitative interviewing and qualitative coding of interview data. References
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development of protocols for commercial deployment (supported by Detectronic ). There will be significant opportunities for personal development including a residential programme at Ashorne Hill to further
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and solutions that will support UK industry to reach net zero. https://greenindustrialfutures.site.hw.ac.uk/the-programme/training-programme/ Project: The field of environmental data analysis has seen
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of agricultural weeds to herbicdes from an eco-evolutionary perspective. This project will develop models for the evolution of herbicide resistance that combines field data and computer models. The aim is to
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cultures. You will have the opportunity to: Conduct research on cell/tissue biomechanics and edible proteins. Develop and use cell culture methods and fluorescent microscopy. Develop analytical skills
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Artificial intelligence and the (re)production of disability in social care
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the prediction of chip formation and service life of the components. Previous experience / requirements: Experimental methods, Finite element modelling, computer programming, Manufacturing Please contact Dr
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Overview This project aims to develop a novel manufacturing method of a finger sized robot through self-assembly and unconventional 4D printing techniques. This is a collaboration with MIT, USA