 Hybrid nanofluids are a promising solution for many applications due to their high thermal conductivity, rapid heat transfer rates, and low cost. In this paper, we examined the effects of a silver and cobalt ferrite-based hybrid nanofluid on a rotating disk and cone. Using the homotopy analysis method, HAM, from the BVPH 2.0 package, we solved the resulting ordinary differential equations, ODE's. The volume fraction of nanoparticles was found to increase and the temperature distribution profile was also increased. Additionally, the antibacterial properties of silver nanoparticles may be used to limit the growth of bacteria. These results suggest that hybrid nanofluids could be used in various applications such as metallurgy, medicine, and electronics. This article was authored by Ima Farouk, Hassan Waqas, Nahid Fatima, and others.