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flows, or the motion of charged fluids such as plasmas. A brief account of the history of geometric mechanics is given in these slides: https://klasmodin.github.io/assets/pdf/modin-geometric-mechanics
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effort of numerical modelling, both fluid (extended MHD) and particle oriented, are combined with high quality observations taken at ground-based and space-based observatories to produce models
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simulation realism and by enforcing quantitative validation against helioseismic constraints. The project combines surface-cooling-driven convection, compressible fluid dynamics, and magnetic fields in ultra
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fluid mechanics. We are looking for a creative, independent, and highly motivated individual with a strong background in laboratory measurements to work on quantifying uncertainties in various fluid
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please visit: https://www.brunel.ac.uk/about/our-history/home The Department of Engineering in the College of Engineering, Design & Physical Sciences at Brunel University of London is seeking to appoint a
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fluid dynamics. The successful candidates will have, or be about to obtain, a PhD in a relevant area of theoretical astrophysics or fluid dynamics, and have an established track record of original
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origins (bacterial, biological fluids, hybrid nanovectors, etc.). He/she will develop protocols for fluorescent labeling (e.g. DNA paint...), immunolabeling, immunoimmobilization, acquisition, processing
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position will be open at the Fluid Dynamic division of Mechanical and Maritime Science department. The research at the Division covers turbulent flow (both compressible and incompressible), multiphase flows
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eólicas flotantes. Laboratory experiments and Computational Fluid Dynamics simulations—particularly using the Smoothed Particle Hydrodynamics (SPH) numerical technique—of the sloshing phenomena occurring
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, structural and chemical properties of zeolites, and associated fluids, stored for 30+ years in sealed containers within Sellafield nuclear fuel storage ponds. The experimental component will focus on materials