An international research collaboration featuring scientists from the FAMU-FSU College of Engineering and the National High ...

Fluid dynamics encompasses a wide range of phenomena where instabilities lead to the onset of turbulence. From naturally occurring astrophysical flows to engineered systems, instabilities such as ...

These quantities are interwoven, forming a state where multiple flows and vortices are intricately entangled. Understanding ...

Rose Yu has drawn on the principles of fluid dynamics to improve deep learning systems that predict traffic, model the ...

Anomalous scaling in turbulent fluid dynamics refers to the observed deviations from classical scaling laws, such as those predicted by Kolmogorov’s 1941 theory. In turbulent flows, energy ...

There may also be implications for fluid dynamics. “Turbulence is believed to be one of the intrinsic properties of high Reynolds flows dominated by inertia, but recently, turbulence-like ...

Using computer models, the study found that the Lyapunov exponent, a measure of chaos, scales with the Reynolds number in a ...

John Dabiri, a fluid dynamics expert, talks with Steven Strogatz about what jellyfish can teach us about going with the flow. Wave-science researcher Ton van den Bremer and Steven Strogatz discuss how ...

There are two main types of fluid flow - laminar flow, in which the fluid flows smoothly in layers, and turbulent flow, which is characterised by chaotic motion and large amounts of mixing. In this ...

The method is not commonly used for computational fluid dynamics and fluid simulations ... the behavior and appearance of fluids, even in turbulent flows when everything seems so chaotic.

This magnetized fluid plays an essential role in the evolution and explosion ... Each of these processes involve an interplay between turbulence, magnetic fields, radiation transport, and gravity.