Third and Fourth Order Accurate Schemes for Hyperbolic Equations of Conservation Law Form

Third and Fourth Order Accurate Schemes for Hyperbolic Equations of Conservation Law Form

It is shown that for quasi-linear hyperbolic systems of the conservation form W sub t = -(F sub x) = -A(W sub x), it is possible to build up relatively simple finite difference numerical schemes accurate to 3rd and 4th order provided that the matrix A satisfies commutativity relations with its parti...

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Bibliographische Detailangaben
Hauptverfasser: Zwas, Gideon, Abarbanel, Saul
Format: Report
Sprache:eng
Schlagworte:
BOUNDARY VALUE PROBLEMS
CONTINUUM MECHANICS
DIFFERENCE EQUATIONS
FINITE DIFFERENCE THEORY
HYDRODYNAMICS
HYPERBOLIC DIFFERENTIAL EQUATIONS
ISRAEL
NONLINEAR DIFFERENTIAL EQUATIONS
NUMERICAL ANALYSIS
NUMERICAL INTEGRATION
Numerical Mathematics
PARTIAL DIFFERENTIAL EQUATIONS
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Zusammenfassung:It is shown that for quasi-linear hyperbolic systems of the conservation form W sub t = -(F sub x) = -A(W sub x), it is possible to build up relatively simple finite difference numerical schemes accurate to 3rd and 4th order provided that the matrix A satisfies commutativity relations with its partial-derivative-matrices. This requirement is not fulfilled by any known physical systems of equations. These schemes generalize the Lax-Wendroff 2nd order one, and are written down explicitly. As found by Strang, odd order schemes are linearly unstable unless modified by adding a term containing the next higher space derivative. Thus stabilized, the schemes, both odd and even, can be made to meet the C.F.L. (Courant-Friedrichs-Lewy) criterion. Numerical calculations were made with a 3rd order and a 4th order scheme for scalar equations with continuous and discontinuous solutions. The results are compared with analytic solutions and the predicted improvement is verified.