Periodic Magnetohydrodynamic Mixed Convection Flow Along a Cone Embedded in a Porous Medium with Variable Surface Temperature

The entrained oscillatory flow and heat transfer in Newtonian fluid along the electrical conducting cone inserted in porous medium by encountering the variable surface temperature is carried out. The primary phenomenon is given a mathematical form in partial differential equations which are non-linear and coupled. By means of dimensionless formulation, the resulting set of constitutive equations is reduced to non-dimensional form. Finite difference method is used for numerical evaluation. The pertinent material properties of interest such velocity, temperature and magnetic profiles along with their derivatives are portrayed in graphical way under the impact of pertinent parameters. The main finding about the current communication is that for elevating the variable surface temperature parameter , the main stream velocity and temperature field get declined and opposite attitude is noted in magnetic profile but reverse scenario is seen in magnetic profile