Journal
NONLINEAR ANALYSIS-REAL WORLD APPLICATIONS
Volume 11, Issue 2, Pages 735-741Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.nonrwa.2009.01.018
Keywords
Similarity transforms; Nonlinear third order differential equations; Galerkin-Legendre spectral method
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Analytical solutions for the velocity and temperature fields in a viscous fluid flowing over a nonlinearly stretching sheet are obtained via Galerkin-Legendre spectral method. The application of spectral methods to this problem is novel as well as the concept of the non-uniqueness of the solution and the efficient algorithms developed in this paper. The governing partial differential equations are converted into a nonlinear ordinary differential equation for the velocity field f and a variable coefficient linear ordinary differential equation for the temperature field theta by a similarity transformation in the semi-infinite physical domain. A coordinate transformation is introduced to map the physical state space into a bounded computational domain. It is shown that Galerkin-Legendre spectral method is the most efficient among spectral methods that lead to the analytical solution of the governing set of nonlinear differential equations in the computational domain. Computationally efficient algorithms are constructed for the velocity gradient and temperature profile computations and two distinct solutions of the field equations are presented. (C) 2009 Elsevier Ltd. All rights reserved.
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