Analysis of non-Newtonian uid with phase ow model

t. In this study, we investigated a non-Newtonian uid stagnation point on a stretching surface with slip conditions using a phase ow model. Cu and Al2O3 nanoparticles were utilized, together with the base uid H2O. The mathematical model has been built using ow assumptions and is theoretically acceptable. The momentum and energy equations are approximated using boundary layer approximations to create partial differential equations. The partial equations that are turned into ordinary differential equations are subjected to the appropriate similarity transformations. The bvp4c method is used to solve these equations numerically. Graphs and tables depict the effect of the physical parameters involved. Our fndings are in good agreement with previous literature. Hybrid nano uid achieves smaller values than nano uid for the parameters F 00(0) and f0(0). Furthermore, for large values of the dimensionless parameter (N), F 00(0) and f0(0) grow, where as F 0(˘) and (f(˘)) increase for large values of °2.