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Field
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testing approaches for predicting induced seismicity and using observations of seismicity to infer in-situ stress conditions; and 2) developing approaches to predict and adapt to changes in fluid
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of molecular reactions occurring at the surface of various materials. In addition, computational fluid dynamics (CFD) simulations combined with microkinetic modeling will be carried out to study the heat
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, population dynamics, evolutionary ecology, pattern formation, fluid dynamics and turbulence. The appointment will be for two years, with possible extensions depending on funding availability. Oppourtunities
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materials relevant to thermal energy storage, including conducting structural characterizations and studying their thermophysical properties. Proficiency in computational fluid dynamics (CFD) simulation
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work culture. The role requires excellent communication skills both at a local level with colleagues and externally with clients and academic partners. knowledge of fluid dynamics, wave structure
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research areas relevant to the project: solar magnetic field modelling, computational fluid dynamics, or solar observational data analysis. Working knowledge of at least one scientific computing environment
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the Department of Radiology at Stony Brook University. The successful candidate will lead efforts to quantify multi-scale neurofluid dynamics, including blood flow and cerebrospinal fluid movement, using state
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information here ! PURPOSE This position is created to help the faculty and the school to work on solid/fluid dynamics and geomechanics modeling and numerical simulations. DESCRIPTION Functional Area 1
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laboratory in the Department of Radiology at Stony Brook University. The successful candidate will lead efforts to quantify multi-scale neurofluid dynamics, including blood flow and cerebrospinal fluid
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laboratory in the Department of Radiology at Stony Brook University. The successful candidate will lead efforts to quantify multi-scale neurofluid dynamics, including blood flow and cerebrospinal fluid