Influence of Variable Liquid Properties on Mixed Convective MHD Flow over a Slippery Slender Elastic Sheet with Convective Boundary Condition
Keywords:variable viscosity, thermal conductivity, wall thickness parameter, biot number
Mixed convective flow and heat transfer of MHD fluid over a variable thickened elastic surface with temperature dependent fluid properties is examined. The formulation is based on variable viscosity and thermal conductivity. In addition, velocity slip and convective boundary conditions are also taken into account. Obtained governing equations are cracked analytically using Optimal Homotopy Analysis method. Outcomes have been documented through graphs and tables, attained upshots are matched with previous existing results and are found to be in good agreement. Error tables and graphs have been plotted to prove the reliability and efficiency of the technique OHAM. A significant effect of Convective boundary conditions on flow and heat transfer has been noticed. For larger values of Biot number in the range 0.5 5000 £ £ g the temperature of the fluid enhances.