Examination of Chemical Reaction on Three Dimensional Mixed Convective Magnetohydrodynamic Jeffrey Nanofluid Over a Stretching Sheet

This article aims to explore the mixed flow of MHD transmission of the three-dimensional Jeffery nanoliquid via a bidirectional stretching sheet. The impact of the chemical reaction rate and the absorption/heat induction on the flow field is assessed. A velocity slip with convective boundary conditions and zero mass concentration conditions is considered. Dimensional quintiles are reassembled into dimensionless equations using the appropriate modification of the equations. The OHAM process was adopted to resolve non-linear equations. The behavior of the parameters involved in the velocity, temperature, and filtration of nanoparticle species is interpreted in detail. It is noteworthy that Deborah's number augments the velocity profiles, and the recurring trend is reflected in the temperature and nanoparticle filtering profiles. The combined outcomes are compared through existing literature to ensure the precision of different case solutions.