The Buongiorno model with Brownian and thermophoretic diffusion for MHD casson nanofluid over an inclined porous surface

Abstract

The key goal of the study under concern is to test the effects of Brownian movement and thermophoresis dispersion on MHD Casson nanofluid limit layer stream over a nonlinear slanted permeable extending surface, with the impact of convective limits and warm radiation with synthetic response. Nonlinear ODEs are gotten from overseeing nonlinear PDEs by utilizing good comparability changes. The amounts related with building angles, for example, skin grating, Nusselt number and Sherwood number alongside different effects of material factors on the speed, temperature, and focus, are explained and explained with outlines. The numerical consequences of the current investigation are acquired through the Runge-Kutta Fehlberg strategy alongside shooting procedure and in constraining sense are diminished to the distributed outcomes for precision reason.