| Applied and Computational Mathematics |
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Florida
State University
Department
of Mathematics
| Applied and Computational Mathematics |
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Large Scale Computing and Simulation Material Research and Computational Rheology Nano Materials and Nanotechnology
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Fluid Dynamics
Mark Sussman My research focuses on 3d computational methods for multiphase/multifluid flows. Example applications are ship hydrodynamics, jetting devices (ink-jet printers, solder droplet deposition, DNA applications), vapor bubble creation and destruction, and oil spreading under ice in water. Numerical methods are designed to handle breaking waves, drops breaking up into two, etc.
Christopher Tam Qi Wang Research on Complex Fluids My research interests are in complex fluids and related materials science. Complex fluids are fluids that are homogeneous at macroscopic scales and disordered at microscopic scales, but possess structures on a mesoscopic scale. Polymeric liquids, bio-fluids, many bio-materials, and nanocomposites are complex fluids. My work includes devlopment of theories for complex fluids, fluid dynamic and rheological study of the fluids, and computations. Research in complex fluids is emerging and promising. It also has a great potential to impact on the real life. Research on complex fluids is an interdisciplinary endeavor, which requires intensive interaction with people of different disciplines. From a mathematician's perspective, we conduct research in the areas of differential equations, applied analysis, dynamical systems, probability, stochastic differential equations, mathematical computations, continuum mechaincs theory, kinetic theory, statistical mechanics, and many physics related subjects. Gordon Erlebacher Fluid Dynamics
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Ship Wake
Shock Vortex |
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