Partial Differential Equations in Applied Mathematics (Mar 2024)
Radiation and inclined magnetic field effects on Williamson fluid flow above a stretching sheet in the existence of velocity, thermal, and concentration slips
Abstract
Research has been conducted on the study of the multi-slip impact on the Williamson fluid flow above a stretching sheet in the existence of an inclined magnetic field and Radiation. By applying the proper similarity conversions, the governing equations (PDEs) are reduced to a set of non-linear ODEs, and a numerical solution is produced by using MATLAB in-built solver bvp4c package. The impacts of the dimensionless characteristics on the flow patterns are analyzed visually, and the values of the friction, Nusselt, and mass transfer quantities are tabulated to exemplify how the various physical factors have an influence. As the magnetic parameter strength increases, the fluid velocity decreases, but it increases with mixed convection. As the parameters of Brownian motion and thermophoresis increase, the temperature also increases. The findings provide good agreement when compared to the current literature.
