When radiation of thermal energy, either internal generation of heat or absorption are significant, the increasing effects of Corriolis force on the cupric oxide and silver tiny particles based nanofluid flow must be determined. The differential equation that models the dynamics of the hybrid nanofluid was used to investigate the fluctuation in the aforementioned transport, friction, and temperature. The constitutive equations are translated and non-dimensionalized using appropriate transformations. Following that, the Variational Parameter Method (VPM) was used to generate numerical solutions to the dimensionless governing equations. The analysis of results shows that an increasing in the rotation parameter corresponds to enhancement of the Corriolis force is capable to boost the temperature distribution. Meanwhile, a higher stretching ratio parameter causes decrement in the temperature distribution. Both radiation of the thermal energy and the generation of heat energy are found to cause the temperature distribution to increase.