On MHD Flow of Non-newtonian Viscoelastic Fluid over a Stretched Magnetized Surface

The purpose of this research is to investigate heat and mass transport in a magnetohydrodynamic (MHD) flow non-Newtonian viscoelastic fluid on stretched magnetized surface. investigations involve modelling the governing partial differential equations with respect Cartesian coordinate system. models are then transformed into set coupled ordinary equations. Numerical graphical solutions were obtained using similarity analysis. effect sheet behavior; local skin friction, Nusselt, Sherwood numbers, presented tables. It was observed that an enhanced thickening thermal boundary layer due induced magnetization sheet. This leads significant decline transfer rate. Certain discoveries reported discloses viscous dissipation non-uniform transmission have momentous impact controlling rate region. Again, from outcome analysis it seen that, appreciating Soret number or lessening Dufour tends decrease velocity temperature profiles while enhancing concentration dissemination. Magnetizing surface shows similar effects Nusselt number, number. concluded surfaces significantly influence cooling hence quality penultimate product.