WILLIAMSON FLUID FLOW OVER A STRETCHING CYLINDER WITH THERMAL CONDUCTIVITY AND HEAT GENERATION/ABSORPTION

Present investigation examines flow of Williamson fluid across a stretching cylinder in a porous medium with thermal conductivity and heat generation/absorption. By utilizing relevant transformations acclimated PDE's are transmuted in ODE's. Arithmetic simulation is elucidated by exercising R-K 4th order technique along with shooting method in MATLAB syntax for temperature and momentum equations. The apprehensions of pictorial and tabular notations are used for porous medium parameter Kp, Weissenberg number We, Prandtl number Pr to analyses the impacts of physical parameters on velocity and energy. The analysis discovered that velocity profile is improved for Weissenberg number We, Heat generation/absorption parameter * Q and thermal Conductivity epsilon and contrary effect can also be seen in the temperature profile for We, Pr, Kp. The obtained results confirm that an excellent agreement is achieved with those available in the literature.