The viscous fluid flow past a sheet, stretching exponentially, is investigated under the influence of thermophoresis, Hall currents and viscous dissipation. The coupled nonlinear equations governing the flow are transformed to nonlinear ordinary differential equations. The successive linearization method is implemented to linearize the nonlinear ordinary differential equations. The obtained linearized system is solved using Chebyshev collocation method. The influences of the various flow governing physical parameters on the velocity components, temperature and concentration are presented graphically and analysed. Also, the skin frictions in x- and z- directions are computed and presented in the tabular form.
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Hall Current, Thermophoresis and Viscous Dissipation.