The present article intends to discuss the flow of an electromagnetic hybrid nanofluid over an expanding/contracting wedge considering the combination of the oxide particle alumina and the metal particle copper in conventional fluid water. Further, the heat transport phenomenon is enhanced for the inclusion of thermal radiation. Following the recent applications used in industrial production processes, cooling of electronic devices, peristaltic pumping processes, drug delivery systems, blood flow through arteries, etc., the role of nanofluid, as well as hybrid nanofluid, is important. The proposed assumptions govern the flow phenomenon are nonlinear and partial. Therefore, appropriate similarity transformation is used for the conversion of non-dimensional ordinary equations and further, traditional numerical technique is adopted to handle the governing equations. The physical properties of the parameters involved are simulated through graphs and tables.