Abstract
This article's goal was to explain how chemical reaction and viscous dissipation affect anon-Newtonian Cross-fluid in a boundary layer flow due to a stretching sheet with variable fluidproperties. The results were obtained after assuming laminar, steady, and viscous flow characteristics.In this study, the analysis took into account the characteristics of the fluid variable diffusivityand slip velocity. It was considered that fluid viscosity and thermal conductivity are temperaturedependentvariables. Because of their mobility, non-Newtonian fluid particles are thought to interactchemically. The physical problem is governed by a set of partial differential equations that are notlinear. Anumerical solution was reached usingNewton's shooting methodology and the Runge-Kuttaintegration technique. A set of figures displays the distributions of the temperature, concentration,and velocity at various physical parameter values. The influence of all physical parameters is shownin tabular form together with the local Sherwood number, drag force, and local Nusselt number. Akey conclusion was that the temperature profile of the nanofluid increases as the mixed convectionparameter and Eckert number rise. Furthermore, both the Sherwood number and the Nusselt numberdecreased as the slip velocity parameter increased. Last but not least, the results proved that thesuggested numerical approach, which offers a reliable description of the flow and heat mass transfermechanism, is effective.