Analysis of a Finite Element Method--PDE/PROTRANSpringer-Verlag, 1985 - 154 pagine |
Dall'interno del libro
Risultati 1-3 di 35
Pagina 12
... solve each of the three problems 1.5.1-3 . Chapters 2-3 outline the techniques used by PDE / PROTRAN to solve the steady state system 1.5.1 , Chapter 4 outlines the techniques to solve the time dependent problem 1.5.2 , and Chapter 6 ...
... solve each of the three problems 1.5.1-3 . Chapters 2-3 outline the techniques used by PDE / PROTRAN to solve the steady state system 1.5.1 , Chapter 4 outlines the techniques to solve the time dependent problem 1.5.2 , and Chapter 6 ...
Pagina 73
... solving a linear system is defined by solving the ith equation for the ith unknown and iterating with this formula . Show ... solve a one - dimensional problem , where all functions are independent of y , M may be taken to be 1 while L ...
... solving a linear system is defined by solving the ith equation for the ith unknown and iterating with this formula . Show ... solve a one - dimensional problem , where all functions are independent of y , M may be taken to be 1 while L ...
Pagina 87
Granville Sewell. 4.3 Solving the Linear Equations If a true Newton iteration were done to solve the discrete equations ( 4.1.4 ) this would mean solving several linear systems , with nonzero structure identical to those solved in the ...
Granville Sewell. 4.3 Solving the Linear Equations If a true Newton iteration were done to solve the discrete equations ( 4.1.4 ) this would mean solving several linear systems , with nonzero structure identical to those solved in the ...
Sommario
Partial Differential Equation Applications | 1 |
Elliptic ProblemsForming the Algebraic Equations | 22 |
Elliptic ProblemsSolving the Algebraic Equations | 50 |
Copyright | |
2 sezioni non visualizzate
Altre edizioni - Visualizza tutto
Parole e frasi comuni
A.UX algorithm approximating assumed backward difference method band solver basis functions boundary conditions BOUNDARY FORCE calculated components conjugate gradient method convergence Crank-Nicolson Crank-Nicolson method curved D3EST Default defined in GLOBAL derivatives diagonal dimensional discretization discretization error DISPLACEMENTS DOUBLE PRECISION DOUBLE PRECISION Expression dxdy eigenfunction eigenvalue problem elastic error Expression involving constants ƏR₁ Figure filename finite difference method finite element formula FORTRAN frontal method frontal solver Galerkin grid hyperbolic problems iarcI initial triangulation integration inverse power method Jacobian matrix keyword Lanczos Iteration Lanczos method linear system Newton iteration Newton's method nonlinear nonzero normalized triangle NOUPDATE output PDE/PROTRAN PDE2D piecewise polynomial plot Pn+1 positive definite PRECISION Expression involving PRECISION MATRIX quadratic quartic elements REAL or DOUBLE satisfies Section shown solution solve specified step Structure symmetric updated UPRINT values variables defined vector velocity VERTICES VSOL XGRID xk+1 zero
Riferimenti a questo libro
Nonlinear Functional Analysis and Its Applications: Part 2 B: Nonlinear ... E. Zeidler Anteprima non disponibile - 1989 |
The Numerical Solution of Ordinary and Partial Differential Equations Granville Sewell Anteprima limitata - 2005 |