English: Animation showing particle trajectories in an idealized irrotational stationary vortex (where the linear velocity is inversely proportional to distance from the axis and the angular velocity is independent of the distance).
The dashed line represents the axis of the vortex. The small spheres are sample particles, and the thin circles are their streamlines (or pathlines). Each transparent tube represents a surface of equal angular momentum; the distance r from the axis to each surface is 1, 2, 3 and 4 times some arbitrary unit.
Note that this schematic animation is not entirely accurate. In a real vortex with curved axis, as shown here, the streamlines are not perfect concentric circles, and the particle velocity varies somewhat both along its orbit and from layer to layer. Moreover, the pattern must break down in a core region close to the axis.
A vortex is like a revolving door between a high density and low density of fluid streams spin around each other until the densities equalizes and the flowing stops. Atoms, Planets, Stars and Galaxies are caused by the helical blending of the fluid.
Анимация, показывающая траектории частиц в идеализированном стационарном вихре (где линейная скорость обратно пропорциональна расстоянию от оси, а угловая скорость не зависит от расстояния).