Xun Jia, Rajat Mittal, Mihaela Pertea, and Sri Sarma honored for outstanding contributions to engineering and medicine ...

A stentor is a trumpet-shaped, single-celled organism up to 2 mm long. It uses its holdfast to anchor to surfaces in ponds or lakes, while its trumpet end creates a vortex to draw in food, such as ...

In a 2023 report, McKinsey & Company projected 35 GW of new power will be needed for data centers in the U.S. by 2030. This ...

Under microscopes, scientists found that giant single-cell organisms were able to vacuum up more food when they are stuck together.

Heat transfer and fluid flow are fundamental to the efficiency, sustainability, and reliability of modern energy systems. Rapid global increases in energy ...

Researchers found that cooperative fluid dynamics between single-celled organisms may have driven the evolution of ...

The physics of how a quirky pond organism filters the water for food provides new insights into a possible driver of early ...

Using powerful supercomputers and cutting-edge software, scientists have conducted the first-ever fully 3D simulations of ...

MIT scientists found that when people veer more than 13 degrees off-course in a crowd, orderly walking breaks down into ...

A groundbreaking simulation study led by researchers at the University of Illinois Urbana-Champaign has uncovered ...

Researchers at the Urbana-Champaign have unlocked new insights into the turbulent behavior of hypersonic flows by using ...

ORNL researchers study quantum computing for fluid dynamics, aiming to enhance industrial design and energy production.