coriolis

The Coriolis effect is an apparent deflection of moving objects in a rotating reference frame. It is named after French-Swiss mathematician Gaspard-Gustave de Coriolis, who described the phenomenon in 1835 while analyzing motion of fluids in a rotating system. In non-inertial (rotating) frames, the effect appears as a fictitious Coriolis force proportional to the velocity of the moving body, F_cor = -2 m Ω × v, or its acceleration form a_cor = -2 Ω × v. In inertial frames the effect arises from the conservation of angular momentum rather than a real force.

Earth can be treated as a rotating frame, with Ω representing Earth's rotation vector, magnitude 7.2921159×10^-5 rad/s,

Impacts of the Coriolis effect are most visible in geophysical and engineering contexts. It shapes large-scale

Notes: The Coriolis effect is not a real force in inertial frames; it is a geometric consequence