Slippage flow of MHD radiative Maxwell nanofluid with CNTs over a moving flat surface with heat and mass diffusion

The radiative MHD unsteady natural flow of Maxwell nanofluid with CNTs (carbon nanotubes) under heat and mass transport past a vertically extended wall subject to slip/no-slip conditions is characterized in this study. Heat generation and thermodiffusion are also considered. The governing equation of flow model of CNTs Maxwell fluid is solved analytical by utilizing the Laplace transform method, and temperature, concentration and velocity fields are established as solutions. The physical aspects of slip with other involved parameters and volume fraction of CNTs are outlined graphically. Three different situations are considered by imposing the specification on the arbitrary motion of the plate, and known solutions have been recovered. Furthermore, a comparison is made among the present and already existing velocity fields to check the validity of this result.