EFFECT OF ALIGNED MAGNETIC FIELD AND INCLINED OUTER VELOCITY IN CASSON FLUID FLOW OVER A STRETCHING SHEET WITH HEAT SOURCE

The purpose of this study was to assess the effect inclined outer velocity on heat and flow transportation in boundary layer Casson fluid over a stretching sheet. is adopted have non-orthogonal magnetic field with generation uniform manner surface. It has been taken that both directions along x-axis, sheet stretched. By applying similarity transformations, governing equations representing are converted ordinary differential equations. Runge-Kutta Fehlberg approach solve numerically moulded help shooting technique. also governed by source parameter, Prandtl number, aligned angle impinging parameter. results revealed decreases an increase parameter for case less than one while increases greater because inverted formation profile second case. Also, temperature (for one) indicate significant impact velocity. behaviour emerging parameters depicted graphically their local Nusselt number (〖Nu〗_x ) skin friction coefficient (C_f represented tables. finding may serve as control rate many manufacturing processes industrial applications make desired quality final product. Acceptance extant technique used current correlated existing outcomes literature.