Theoretical analysis of new mass flux theory and Arrhenius activation energy in Carreau nanofluid with magnetic influence

In the arena of pharmaceutical, nanotechnology and nanoscience numerous scientists are fascinated to explore the notion of nanofluid because nanofluids are two-phase ingredients comprising of disreputable fluid and nanoparticles which have notable possessions of heat transportation. Nanofluids are of boundless worth due to the higher enactment on progress of thermal act. This exertion sightsee the thought of new mass flux and activation energy in magnetized transient Carreau nanofluid with variable conductivity. The convective phenomenon, heat sink-source and chemical reaction are also scrutinized. The bvp4c algorithm exploited for solutions of ODEs. The outcomes of influential parameters are sketched graphically and in tabular shape. The temperature field escalates for Biot number and falloff for Prandtl number. The thermophoretic and activation energy parameters have analogous influence on concentration scattering and intensify the concentration field. Furthermore, the comparative fallouts are acknowledged and attained outstanding agreement.