Two-Dimensional Viscous, Steady, 2-D Nanofluid Flow Past a Permeable Stretching Sheet in Presence of Magnetic Field, Soret and Dufour Effects
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Abstract
This project aims to investigate the interaction between thermal and magnetic fields under stretching conditions. By employing concentration and energy equations, we aim to scrutinize the thermo-diffraction effect. Additionally, we plan to integrate other factors such as fluid injection and suction. Solving boundary layer equations will be facilitated using the Runge-Kutta method. Through graphical representations, we aim to illustrate how various parameters influence temperature, concentration profiles, and velocity. Our findings will be communicated using Sherwood, Nusselt, and skin-friction coefficients. The consistency between our results and previous research underscores the importance of this study in advancing nanotechnology.
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