One is quantum electrodynamics, and the other is the turbulent motion of fluids.

Then, when it is heavy enough, it falls again, perhaps to be caught up once again in the turbulent motion of the air.

However, as was pointed out there, the waves predicted by such theory are only the first stage of the evolution towards turbulent motion.

Another method of discovering the time scales associated with turbulent motion is, obviously, Fourier analysis.

It is an important parameter in many theoretical treatments of turbulent motion.

Outside the wake γ is 0; turbulent motion never penetrates there.

Fluid just in the non-turbulent region will a short time later be in turbulent motion.

The way in which its spreading brings the dye from the other source into turbulent motion can be seen.

There is no sharp distinction between the later stages of transition and the earlier ones of turbulent motion.

Well, it's got a lot of gas, turbulent motions, maybe a black hole.