Effect of Viscous Dissipation on Magneto Hydrodynamics Free Convection Flow from an Isothermal Truncated Cone in the Presence of Pressure Work with Temperature Dependent Viscosity

The purpose of the existing study is to analyse how viscous dissipation effects on variable viscosity and pressure work together to produce constant magneto hydrodynamic free convection flow around an isothermal truncated cone. Using similarity solution of partial differential equations, further conforming to the energy and momentum equations are reformed into non-linear ordinary differential equations. Using a quasilinearization method in accumulation to an implicit finite difference technique, the outcomes are produced for the flow. Along with fixed magneto hydrodynamics, pressure work, and variable viscosity, the outcomes of some physical parameters on skin friction, the transfer of heat quantities, velocity, and temperature are given for altered data of viscous dissipation. It is presented that viscous dissipation has a substantial influence on the thickness of the thermal boundary layer.