Velocity Distribution in Open Channel

Driven low density granular mixtures

Engineering / Stochastic Process / Kinetic Theory / Mathematical Sciences / Direct Simulation Monte Carlo / Physical sciences / Steady state / Velocity Distribution in Open Channel / Granular Material / Porous Material / Spatial Correlation / Physical sciences / Steady state / Velocity Distribution in Open Channel / Granular Material / Porous Material / Spatial Correlation

A local dynamic model for large-eddy simulation

Large Eddy Simulation / Computation Fluid Dynamics / Velocity Distribution in Open Channel / Mathematical Model / Kinetic Energy / Dynamic Model of WSN / Computational Grid / Velocity Field / Dynamic Model of WSN / Computational Grid / Velocity Field

Non-Linear Phenomena in Dusty Plasmas

Plasma Physics / Dusty Plasma / Dispersion Relation / Double Layer / Velocity Distribution in Open Channel

An implicit three-dimensional numerical model to simulate transport processes in coastal water bodies

Engineering / Finite element method / Finite Element / Mathematical Sciences / Physical sciences / Turbulent Flow / Oscillations / Water Temperature / Velocity Distribution in Open Channel / Two-Dimensional Hydrodynamic Model / Kinetic Energy / Finite Difference / Numerical Model / Three Dimensional / Coastal waters / Turbulence Model / Water Level / Convection Diffusion Equation / Hydrostatic Pressure / Turbulent Flow / Oscillations / Water Temperature / Velocity Distribution in Open Channel / Two-Dimensional Hydrodynamic Model / Kinetic Energy / Finite Difference / Numerical Model / Three Dimensional / Coastal waters / Turbulence Model / Water Level / Convection Diffusion Equation / Hydrostatic Pressure

Cell adhesion protein decreases cell motion: Statistical characterization of locomotion activity

Mathematical Physics / Quantum Physics / Statistical Mechanics / Cell Adhesion / Velocity Distribution in Open Channel / Anomalous Diffusion / Boltzmann distribution / Anomalous Diffusion / Boltzmann distribution

Study of a pseudo-empirical model approach to characterize plasma actuators

Engineering / Air flow / Physical sciences / Flow Visualization / Velocity Distribution in Open Channel / Control Strategy / Boundary Layer / Boundary Condition / Empirical Model / Duty Cycle / Control Strategy / Boundary Layer / Boundary Condition / Empirical Model / Duty Cycle

Driven low density granular mixtures

Engineering / Stochastic Process / Porous Materials / Stochastic processes / Kinetic Theory / Mathematical Sciences / Direct Simulation Monte Carlo / Physical sciences / Steady state / Velocity Distribution in Open Channel / Granular Materials / Granular Material / Porous Material / Spatial Correlation / Mathematical Sciences / Direct Simulation Monte Carlo / Physical sciences / Steady state / Velocity Distribution in Open Channel / Granular Materials / Granular Material / Porous Material / Spatial Correlation

Study of a pseudo-empirical model approach to characterize plasma actuators

Engineering / Air flow / Physical sciences / Flow Visualization / Velocity Distribution in Open Channel / Control Strategy / Boundary Layer / Boundary Condition / Empirical Model / Duty Cycle / Control Strategy / Boundary Layer / Boundary Condition / Empirical Model / Duty Cycle

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