Abstract
The intension of the present research analysis is to explore by theoretical study about the flow of chemically reacting nanofluid above a stretched permeable sheet in rotation. The other effects combined are internal heat generation, activation energy and thermal radiation in a convective heat and mass transport of the system. The impacts of movement caused by Brownian action and thermophoresis which come about have been incorporated. On applying Runge-Kutta method numerical solution was obtained by coupling shooting technique. The study also reports the behaviour of all physical parameters on concentration, temperature and velocity through graphs. Local Sherwood and Nusselt numbers beside with skin friction coefficient are conversed quantitatively. Arithmetical results are tabulated.
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