Chemical Reaction and Radiative MHD Heat and Mass Transfer Flow with Temperature Dependent Viscosity Past an Isothermal Oscillating Cylinder

The numerical analysis is performed to examine the effects of magnetic, radiation and chemical reaction parameters on the unsteady heat and mass transfer flow past a temperature dependent viscosity of an isothermal oscillating cylinder. The governing coupled dimensional partial differential equations have been transformed into dimensionless equations by using non-dimensionless variables. The transformed momentum, energy and concentration equations are solved numerically by using explicit finite difference method. A Compaq visual Fortran 6.6a has been used to calculate the numerical solutions of this present problem. The velocity, temperature, concentration field, skin-friction, rate of heat transfer, streamlines and isotherms lines for different well-known parameters entering into the problem separately are discussed with the help of graphs.