Results 321 to 330 of about 2,921,255 (365)

Haag’s theorem in a finite volume

Il Nuovo Cimento, 1960
The question of extending Haag’s theorem to a finite volume is explored. A positive result is suggested.
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Volume rigidity for finite volume manifolds

American Journal of Mathematics, 2005
We extend to finite volume manifolds some volume rigidity results of Besson-Courtois-Gallot. Our main result is a Volume Theorem which shows that proper maps from finite volume manifolds with Ricci curvature bounded from below to finite volume manifolds of pinched negative curvature decrease volume.
Boland, Jeffrey, Connell, Chris, Souto, Juan   +2 more
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Parallelization of a finite volume CFD code

Workshops on Mobile and Wireless Networking/High Performance Scientific, Engineering Computing/Network Design and Architecture/Optical Networks Control and Management/Ad Hoc and Sensor Networks/Compile and Run Time Techniques for Parallel Computing ICPP 2004, 2005
6th International Workshop on High Performance Scientific and Engineering Computing (from 08/15/2004 to 08/18/2004), Montreal ...
Rebaine, A., Fortin, F., Benmeddour, A.
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Nonconforming Finite Volume Methods

Computational Geosciences, 2002
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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A Multilevel Multiscale Finite Volume Method

Proceedings, 2012
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Rouven Künze, Ivan Lunati, Seong H. Lee
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Finite-Volume Methods

2001
In Chapter 3, we saw how to derive finite-difference approximations to arbitrary derivatives. In Chapter 4, we saw that the application of a finite-difference approximation to the spatial derivatives in our model PDE’s produces a coupled set of ODE’s.
H. Lomax, Thomas H. Pulliam, David W. Zingg   +2 more
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Finite Element and Finite Volume Methods

2009
In this chapter we consider finite element and finite volume discretisations of $$Lu\,: = - \varepsilon u'' - bu' + cu = f\,\,{\rm in}\,(0,1), \,\,\ u(0) = u (1) = 0,$$ with b ≥ β > 0. Its associated variational formulation is: Find \(u \in H_0^1 (0,1)\) such that $$a(u, v) = f(v)\,\,\, {\rm for\, all}\,\, v \in H_0^1 (0,1),$$ (5.2 ...
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The Finite Volume Method

2015
Similar to other numerical methods developed for the simulation of fluid flow, the finite volume method transforms the set of partial differential equations into a system of linear algebraic equations. Nevertheless, the discretization procedure used in the finite volume method is distinctive and involves two basic steps.
F. Moukalled, L. Mangani, M. Darwish
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Model reduction and discretization using hybrid finite volumes for flow in porous media containing faults

Computational Geosciences, 2016
I. Faille, A. Fumagalli, J. Jaffré, J. Roberts   +3 more
semanticscholar   +1 more source

On the implementation of a finite volumes scheme with monotone transmission conditions for scalar conservation laws on a star-shaped network

Applied Numerical Mathematics, 2020
Sabrina Francesca Pellegrino
exaly