MR-AIV uses physics-informed AI and DCE-MRI scans to infer 3D brain-wide fluid movement in mice without direct flow ...

Living cells cool much slower than our current understanding of heat conduction can explain, according to new research from the University of Tokyo. Researchers have used two techniques—high-speed ...

Shini is very excited to start talking about Fluids. In this episode of Crash Course Physics, Shini is very excited to start talking about Fluids. You see, she's a Fluid Dynamicist and Mechanical ...

Researchers at University of Tsukuba used advanced techniques to visualize the water flow generated by flutter kicking during ...

Sperm cells move through fluids that should stop them almost instantly, yet new research suggests they succeed by exploiting unusual properties of active living matter.

Summary: A multidisciplinary neuroengineering study has broken a major imaging barrier by mapping the exact flow velocity of the brain’s waste-clearing infrastructure. The research utilizes ...

In collaboration with the MacCurdy Lab, we recently published a paper in Physics of Fluids titled Modeling of Contactless Bubble-bubble Interactions in Microchannels with Integrated Inertial Pumps.

The first ever camera footage from inside a centrifuge has revealed a new mystery in the physics of fluids. A centrifuge is a standard piece of laboratory equipment that spins fluid samples at high ...

You spin me round: Two spinners inside a circular container are surrounded by liquid containing bubbles that help to visualize the flows. The left spinner is actively driven to rotate with a motor ...