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experimental methods to improve them, alongside developing new approaches to enhance these properties. External environmental factors, such as humidity, pressure, and temperature, will also be key variables
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will be key to ensuring that useful measurements, methods and representations are developed. In particular, the project will support designers to achieve driver and passenger experiences that surpass
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will be defined, decomposed and assessed through attention to artefacts and practices across a range of sectors and disciplines. Focusing on the automotive context, the project will develop a
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until 12 noon GMT on Monday 19th May 2025. The Programme Our PhD in Safe AI takes a unique and purposeful approach. PhD researchers with different backgrounds and experiences will train together
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public-facing cultural programme. It offers the opportunity to develop a unique curatorial approach that engages with Gloucester’s civic transformation, supports the University’s strategic goals, and
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the formation of biofilms and the development of processes to formulate / process them into new health/consumer care products e.g. oral/skin health products. The project will focus upon extending UoN patented
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the formation of biofilms and the development of processes to formulate / process them into new health/consumer care products e.g. oral/skin health products. The project will focus upon extending UoN patented
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temperature stability and spatial resolution, to make a leap in this field. The PhD research programme will squarely address these challenges. The PhD candidate should have completed (or about to complete
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of understanding how to shape these fields are being investigated by measuring currents, voltages, and temperatures directly inside modules. In this PhD, you will design and develop high performance modules for WBG
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an original programme of research working with ecologists Dr Ashley Lyons and Dr Anne Oxbrough in collaboration with Dr Steven Ewing at the RSPB Centre for Conservation Science. This PhD is part of the Cumbria