by B.S. University of Puerto Rico ... M.S. University of Puerto Rico (1973)
... plasmapause is a destabilizing mechanism for which a convective instability could be established. However, using real density, pressure and magnetic field data we find that it is unlikely for this region to become convectively unstable. Estimates of the magnetic Richardson number show that shear ins ...
... plasmapause is a destabilizing mechanism for which a convective instability could be established. However, using real density, pressure and magnetic field data we find that it is unlikely for this region to become convectively unstable. Estimates of the magnetic Richardson number show that shear ins ...
Experiment - Version III
... Move the droplet into the central area of the grid before making the next change to reduce the probability of losing the droplet. Press to restore this standard voltage and measure the velocity of the droplet under the
influence of both gravity and the standard electric field (vt). Use the zoom ...
... Move the droplet into the central area of the grid before making the next change to reduce the probability of losing the droplet. Press
Chapter 9. Modeling Flows in Moving Zones
... ∂Ω neglects the ρ ∂t × ~r term, so it cannot accurately model a time-varying angular velocity using the relative velocity formulation. For flows in rotating domains, the equation for conservation of mass, or continuity equation, can be written as follows for both the absolute and the relative veloci ...
... ∂Ω neglects the ρ ∂t × ~r term, so it cannot accurately model a time-varying angular velocity using the relative velocity formulation. For flows in rotating domains, the equation for conservation of mass, or continuity equation, can be written as follows for both the absolute and the relative veloci ...
High-electric-field limit for the Vlasov–Maxwell–Fokker
... is large compared to the thermal velocity, the other physical parameters being fixed. The high-field limit of the VPFP system can be addressed by appealing to usual compactness methods; however, constraints on the space dimension appear, due to the singularity of the convolution kernel. It turns out ...
... is large compared to the thermal velocity, the other physical parameters being fixed. The high-field limit of the VPFP system can be addressed by appealing to usual compactness methods; however, constraints on the space dimension appear, due to the singularity of the convolution kernel. It turns out ...
Nonlinear transport current flow in superconductors with planar obstacles
... 共4兲 for (r) to a linear equation for (E). In turn, the equation for (E) can be further reduced to other well-studied linear partial differential equations, such as Thomas-Fermi or London equations, whose known solutions can be used to obtain exact solutions for 2D current flows in nonlinear co ...
... 共4兲 for (r) to a linear equation for (E). In turn, the equation for (E) can be further reduced to other well-studied linear partial differential equations, such as Thomas-Fermi or London equations, whose known solutions can be used to obtain exact solutions for 2D current flows in nonlinear co ...
Electron Dynamics: A novel numerical approach and attosecond
... [4], the Chebyshev scheme [5], and the iterative Lanczos propagator [6]. All of these methods have found numerous applications in both physics and chemistry, but non of them are universal. Considering the physical domain of the problem, one must chose the method making the best compromise between pr ...
... [4], the Chebyshev scheme [5], and the iterative Lanczos propagator [6]. All of these methods have found numerous applications in both physics and chemistry, but non of them are universal. Considering the physical domain of the problem, one must chose the method making the best compromise between pr ...