Thermal Radiation, Chemical Reaction, Soret, Hall and Ion Slip Effects on Unsteady MHD Rotating Flow of Micropolar-Casson Fluid through Porous Medium

The effects of heat radiation, chemical reaction, Hall and ion slip, as well as a flow of a fluid in which each particle moves along its line of flow with constant speed and in which the cross section of each stream tube remains unchanged transverse magnetic field and convective boundary conditions, on an unstable MHD natural convective rotating flow of micro-polar Casson fluid through extending to infinity in one direction the porous plate moving vertically have been studied. The boundary layer solutions must satisfy the no slip criterion since it is presumed that the entire system would vary in time by constant frequency. The perturbation approach is applied to solve the dimensionless governing equations analytically, and the outcomes are then computationally analysed to the relevant parameters by references. Heat and mass transfer which involves several natural and man-made transport systems on MHD flows across porous medium through chemical reactions. Hall and ion slip impacts are often exploited in the bio-medical field.