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position centers on uncovering fundamental and applied mechanisms of clay–fluid interactions, environmental geotechnics, and sustainable soil-based materials through integrated computational modeling
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subsequent PhD degree in (astro-)physics, computer science, engineering, or other related fields, with a strong focus on numerical simulations Experience in the development of numerical methods for multi
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an active research agenda, and engage in program development and university service. We seek a dedicated individual who will contribute to our vibrant academic community through innovative research, teaching
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Infrastructure? No Offer Description This project is part of the European ERC Synergy project Karst https://erc-karst.eu/ , which aims to develop a predictive flow model for an entire karst network. We will
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role will focus on developing fundamental and applied insights into clay–fluid interactions, environmental geotechnics, and sustainable soil-based materials using a combination of computational modeling
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advertised should align to either medical device development, including sensing and instrumentation, or biomechanics, which is broad and we welcome candidates from both solid mechanics, fluid mechanics and
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thermal-fluid-dynamics framework to understand the effect of processing parameters on thermos-capillary ‘keyhole’ evolution in multi-component metallic substrates. This will involve running simulations
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challenged the status quo. UBC encourages its students, staff and faculty to challenge convention, lead discovery and explore new ways of learning. At UBC, bold thinking is given a place to develop into ideas