The Navier-Stokes equation is named after Claude-Louis Navier and George Gabriel
Stokes. This equation gives a scientific model of the movement of a liquid. It is an imperative
condition in the investigation of liquid flow, and it utilizes numerous center angles to vector math. The Navier-Stokes equation can be seen as a use of Newton’s second law, F = ma, which expresses that the force is the result of the mass of an object times its acceleration. In this proportionate equation, we see the utilization of density and shear stress. density is the measurement of an objects mass for each unit volume, while shear stress is characterized as the part of stress coplanar with a material cross area, where the force vector segment runs parallel to the cross segment. Consider
