Numerical Investigation of Nanofluid MHD Flow across an Extended Stretching Sheet with Slip and Darcy Dissipation

The flow of thermoradiative nanofluids on an elongating surface is tested in this work using porous media. The flow dynamics are influenced by the combined effects of the thermally dependent and exponential heat sources. In addition, magnetic impacts have been applied to the inclined flow system. On the other hand, Darcy dissipation and a heat source have been used to study heat transfer in the unsteady MHD Nanofluid slip flow over an inclined stretching sheet. The study gains interest when the Soret number is present. The similarity transformation technique is used to transform the leading partial differential equations into a small number of ordinary differential equations. The reduced system is addressed using the 4th order R-K method with shooting technique.