Average velocity of solitary coarse grain in flows over smooth and
... where is the slope angle, tan is the friction coefficient and is the friction angle. If ub > us, ...
... where is the slope angle, tan is the friction coefficient and is the friction angle. If ub > us, ...
Two-point microrheology and the electrostatic analogy
... source, f i (x, ) in Eq. 共3兲. Similarly the electric potential, (x, ) in Eq. 共4兲 is analogous to vector displacement field, u(x, ) in Eq. 共3兲, and the position-dependent dielectric tensor, ⑀ i j (x, ), has as its analog in Eq. 共3兲 the elastic constant tensor, K i jkl (x, ). Finally, we n ...
... source, f i (x, ) in Eq. 共3兲. Similarly the electric potential, (x, ) in Eq. 共4兲 is analogous to vector displacement field, u(x, ) in Eq. 共3兲, and the position-dependent dielectric tensor, ⑀ i j (x, ), has as its analog in Eq. 共3兲 the elastic constant tensor, K i jkl (x, ). Finally, we n ...
Turbulent and neoclassical toroidal momentum transport in tokamak
... to the low collisionality of the plasma, kinetic modeling is mandatory for the study of tokamak turbulence. In principle, this implies the modeling of a six-dimensional distribution function representing the density of particles in position and velocity phase-space, which can be reduced to five dime ...
... to the low collisionality of the plasma, kinetic modeling is mandatory for the study of tokamak turbulence. In principle, this implies the modeling of a six-dimensional distribution function representing the density of particles in position and velocity phase-space, which can be reduced to five dime ...
Edge Convection Driven by Externally-Applied Potentials
... The physical parameters for the SOLT simulations were chosen to be consistent with NSTX shot #112825,24 a low-confinement-mode discharge in a deuterium plasma. The simulation used the following outboard midplane parameters B = 2500G, R = 150 cm, s = 0.52 cm, nref = 1013 cm-3, nwall = 2x1011 cm-3, ...
... The physical parameters for the SOLT simulations were chosen to be consistent with NSTX shot #112825,24 a low-confinement-mode discharge in a deuterium plasma. The simulation used the following outboard midplane parameters B = 2500G, R = 150 cm, s = 0.52 cm, nref = 1013 cm-3, nwall = 2x1011 cm-3, ...
Differential Equations - The University of Texas at Dallas
... Where y represents the level that a student has learned a skill as a function of time and n and p are constants depending on the person learning the skill and the diffuculty of learning the skill. Solve this differential equation with the initial condition y(0) = 0 and p = 1, n = 4. ...
... Where y represents the level that a student has learned a skill as a function of time and n and p are constants depending on the person learning the skill and the diffuculty of learning the skill. Solve this differential equation with the initial condition y(0) = 0 and p = 1, n = 4. ...
compatible discretizations for maxwell equations
... From a finite-difference viewpoint, topological thresholding provides a general and systematic way to derive stable local finite-difference stencils in irregular grids. We also propose and implement an E-B mixed FEM scheme to discretize first order Maxwell equations in frequency domain directly. Th ...
... From a finite-difference viewpoint, topological thresholding provides a general and systematic way to derive stable local finite-difference stencils in irregular grids. We also propose and implement an E-B mixed FEM scheme to discretize first order Maxwell equations in frequency domain directly. Th ...
Simulation of boundary slip on a liquid
... different times with LBM simulation. y = h/H where H is the gap between the two plates and h is the distance from fluid point to the bottom plate and the velocity is dimensionless speed in the LBM. ...
... different times with LBM simulation. y = h/H where H is the gap between the two plates and h is the distance from fluid point to the bottom plate and the velocity is dimensionless speed in the LBM. ...