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Volume 28, Issue 6
23 August 2011
Engineering Computations Cover Image for Volume 28, Issue 6
Research Article| August 23 2011

Shock wave simulations using Sinc Differential Quadrature Method Available to Purchase

Alper Korkmaz;
Alper Korkmaz
Department of Mathematics, Faculty of Science, Çankiri Karatekin University, Çankiri, Turkey
Alper Korkmaz can be contacted at: alperkorkmaz7@gmail.com
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İdris Dağ
İdris Dağ
Department of Mathematics and Computer Sciences, Eskişehir Osmangazi University, Eskişehir, Turkey
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Author & Article Information
Alper Korkmaz can be contacted at: alperkorkmaz7@gmail.com
Publisher: Emerald Publishing
Online ISSN: 1758-7077
Print ISSN: 0264-4401
© Emerald Group Publishing Limited
2011
Engineering Computations (2011) 28 (6): 654–674.
https://doi.org/10.1108/02644401111154619
Purpose

This paper aims to present a numerical solution of non‐linear Burger's equation using differential quadrature method based on sinc functions.

Design/methodology/approach

Sinc Differential Quadrature Method is used for space discretization and four stage Runge‐Kutta algorithm is used for time discretization. A rate of convergency analysis is also performed for shock‐like solution. Numerical stability analysis is performed.

Findings

Sinc Differential Quadrature Method generates more accurate solutions of Burgers' equation when compared with the other methods.

Originality/value

This combination, Sinc Differential Quadrature and Runge‐Kutta of order four, has not been used to obtain numerical solutions of Burgers' equation.

Keywords:
Sinc functions, Differential quadrature method, Burgers' equation, Shock waves, Number theory, Heat conduction
© Emerald Group Publishing Limited
2011
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