In this study, we model the free convective flow of a micropolar fluid with electrical conductivity between a porous material and a permeable stretched sheet. Fluid behaviour under the impact of certain constituent factors has been the subject of many different study by researchers around the globe, with some very interesting and unique conclusions emerging from these studies. Little is known about how Viscous Dissipation interacts with micropolar nanofluid flow over a slanted stretching surface. The ordinary differential equations are derived from the governing partial differential equations by using an appropriate equivalent substitution. The numerical solutions to these sophisticated nonlinear coupled equations are more involved, hence computational solutions, like the MATLAB inbuilt solver bvp4c, are used instead. The behaviour of factors that describe the flow phenomenon is shown on graphical representations, and the calculated values of physical qualities that are important can be viewed in the form of tables.