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the University of Oslo. Place of work is the Department of Mathematics at Blindern, Oslo. Ocean waves follow complex patterns influenced by wind, currents, and the shape of the seafloor. Predicting
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of complex models. BioM is an interdisciplinary Convergence Environment under UiO:Life Science, based at the Natural History Museum, and in collaboration with the Department of Mathematics, the Department
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for catalysis and organic chemistry studies the correlation between catalyst composition/structure and their effects on chemical reactions. The catalysts can be of organic and/or inorganic origin. The section has
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change and pollution). We will study complex questions of WHY key biological responses to multiple stressors (climatic stress and agricultural used pesticides) differ between populations, micro-climate
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projects is developing a new understanding of the fluid-structure interactions, that is to say, the coupling between hair’s/sheet’s elastic deformations and the fluid flow. The project aims to develop a
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when approaching complex problems. The ability to work both independently and as part of a team. The ability to work precisely in a structured manner and swiftly adapt to new tasks. Good communication
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" methodology, identifying the building blocks and enabling conditions that allow complex AI behaviors to manifest. Within this ambitious framework, NTNU holds a central leadership role, spearheading
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developing a new understanding of the fluid-structure interactions, that is to say, the coupling between hair’s/sheet’s elastic deformations and the fluid flow. The project aims to develop a contactless soft
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-on experience in collaborative modelling, scientific synthesis, and science-policy engagement—central to enabling young researchers to navigate the complexity of transdisciplinary research and build strong
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biomechanical properties to enable efficient spreading through complex extracellular environments. The nuclear envelope protein BAF has emerged as a critical adaptable node in determining nuclear biomechanical