Jeffrey fluid behaviour on oscillatory couette flow past two horizontal parallel plates in presence of mhd and radioactive heat transfer

Abstract

The aim of this study carry out on an unsteady MHD at no cost convective oscillatory Couette flow of a well-known non-Newtonian Jeffrey fluid of an optically thin fluid bounded by two horizontal porous parallel walls in a channel embedded in porous medium in the presence of thermal radiation and angle of inclination. Design and Method is the flow is governed by a coupled non-linear system of partial differential equations which are solved numerically by using finite difference method. Results are the impacts of various physical parameters on the flow quantities viz. velocity and temperature reports, skin-friction and rate of heat transfer coefficients are studied numerically. The results are discussed with the help of graphs and tables. Conclusion is the finite difference results are compared favourably with already established results in literatures.