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laboratory is the experimental analysis and numerical simulation of innovative trauma surgery procedures involving bones, joints, ligaments, tendons, and muscles. Performing biomechanical test series
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programming and quantitative analysis (e.g., statistics, scientific programming, numerical simulation) • Excellent written and spoken English (working language is English). • Ability to work independently
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workflow for the analysis of single-crystal diffuse scattering. In this project, you will have the opportunity to contribute towards reaching this challenging aim. Your tasks include: Deducing numerous
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collaborators. The activities will include: • Electromagnetic modeling and numerical simulations (e.g., FDTD, FEM) • Design of metasurface architectures based on dielectric materials available at CRHEA
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and velocity distributions within the liquid metal. The experimental works are supported by numerical simulations of project partners inside the doctoral network. Within the project duration of 36
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Identification and classification of coherent flow structures in the plasma of the Sun’s photosphere
ejections reach the Earth, they can cause the so called geomagnetic storms. In this project we will develop novel numerical techniques to detect vortices in the Sun, and we expect to be able to anticipate
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documents: a) Copy of certificate or diploma degree. b) Detailed curriculum vitae structured in accordance with point 9. c) Motivation letter. d) Copy of the 3 most relevant publications. e) Other relevant
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systems. These models will be part of a multicellular modelling and simulation framework being developed as part of the Australian Research Council's (ARC) Discovery Project "Bridging biological boundaries
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Posting Details Student Title Classification Information Quick Link https://chapman.peopleadmin.com/postings/39133 Job Number SE179024 Position Information Department or Unit Name Fowler School
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an appropriate set of dimensionless numbers (including Péclet number, Damköhler number, capillary number and viscosity ratio). The project focuses on formulating this coupled model and implementing it numerically