Abstract
The impact of magnetic field, joule heating, rotation parameter, Hall current, with nonlinear thermal radiation, on a rotating hybrid Fe3O4/Al2O3 nanofluid over-stretched plate is the focus of this research. Using similarity transformations, the controlling partial differential equations are turned into a set of nonlinear ordinary differential equations. For that system of equations, the shooting method is used to generate numerical solutions. The impact of various entry parameters on transversal and longitudinal velocities, temperature, heat flow and surface shear stress are studied numerically and graphically. The results obtained confirm that When hybrid nanoparticles are present, skin friction on the surface increases by (31.91%–51.27%) and the Nusselt number falls by (4.4%–7.57%) for 5% Al2O3 plus (5%–10%) magnetite.
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