In this paper, we propose radial basis function (RBF) to solve nonlinear momentum and energy equations obtained from modeling steady laminar flow through a porous medium of an incompressible viscous conducting fluid impinging on a permeable stretching surface with heat generation. This flow impinges normal to a plane wall with heat transfer. Our reports consist of the effect of the porosity of the medium, the surface stretching velocity, and the heat generation/absorption coefficient on both the flow and heat transfer. A simple solution by using collocation points over the almost whole domain [0, ∞) is obtaind. We apply this method through the definite integration process and satisfy the infinity boundary condition by using Gaussian RBF.
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