Variable Fluid Characteristics’ Impacts on the Dissipative and Chemically Reactive Fluid Flow across a Stretched Surface

This article’s goal was to explain how chemical reaction and viscous dissipation affect a non-Newtonian Cross-fluid in boundary layer flow due stretching sheet with variable fluid properties. The results were obtained after assuming laminar, steady, characteristics. In this study, the analysis took into account characteristics of diffusivity slip velocity. It considered that viscosity thermal conductivity are temperaturedependent variables. Because their mobility, particles thought interact chemically. physical problem is governed by set partial differential equations not linear. Anumerical solution reached usingNewton’s shooting methodology Runge–Kutta integration technique. A figures displays distributions temperature, concentration, velocity at various parameter values. influence all parameters shown tabular form together local Sherwood number, drag force, Nusselt number. key conclusion temperature profile nanofluid increases as mixed convection Eckert number rise. Furthermore, both decreased increased. Last but least, proved suggested numerical approach, which offers reliable description heat mass transfer mechanism, effective.