## Finite Elements in Fluids, Volume 5 |

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### Contents

Analysis of Stokes Flow by a Hybrid Method | 27 |

Domain Decomposition for Elliptic Problems 45 | 45 |

Finite Element Formulation of Rotational Transonic Flow Problems | 173 |

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### Common terms and phrases

applied assumed basis functions bilinear boundary conditions boundary layer calculation coefficients composite element computational conjugate gradient algorithm constant constraint convective convergence coordinates cylinder defined denotes derivatives Dirichlet problems discrete Edited by R. H. Elements in Fluids Euler equations Eulerian finite difference finite element analysis finite element approximation finite element method finite element model flow problems formulation free surface flow Galerkin Gresho grid hydraulic fracture initial isoparametric J. T. Oden Kawahara Kawai Lagrange multiplier Lagrangian linear matrix mesh Meth momentum Equation Navier-Stokes equations nodes nondimensional nonlinear Numerical Methods numerical solution O. C. Zienkiewicz obtained oscillation parameter penalty method Poisson problems primitive equations procedure R. H. Gallagher region Reynolds number scheme Scriven Section selective reduced integration shown in Figure solve stability step stress transonic flows two-dimensional variables vector velocity field vertical viscous viscous flow wave weighted residuals Wiley & Sons