Think about pouring a sparkling soda into a glass; the effervescent bubbles create a livel...
Understanding How Bubbles Affect Pressure Waves in Liquids
How Micropillar Arrays Use Magnetic Movements to Manipulate Fluids and Move Like Robots
Imagine stepping into a miniature world where tiny robots, known as micropillars, can danc...
Understanding the Navier-Stokes Equations in Quantum Liquids
Imagine standing by a river, observing how the water flows gracefully around rocks and cur...
Understanding How Liquid Drops Move on Slanted Surfaces
The movement of liquid droplets on slanted surfaces is far from trivial; it's a captivatin...
How Fluid Dynamics Can Help Save Lives in Crowds
Head to Spain, and you'll find yourself swept up in the electrifying atmosphere of the San...
New Method Creates Super Realistic Simulations of Fluid Behavior
In a remarkable leap for science, researchers at the University of California San Diego ha...
How AI Can Understand Splashing Drops with Amazing Precision
Have you ever wondered how drops behave when they hit a surface? In Japan, researchers at ...
Controlling Waves in Fluids: A New Scientific Approach
Imagine being able to orchestrate the movement of waves in a fluid, much like a maestro le...
Self-Propelling 3D-Printed Particles in Fluid Dynamics
Imagine casually dropping a splash of alcohol onto a serene pool of water. Instead of merg...
Revolutionizing Fluid Mechanics: AI Breakthroughs in Drag Coefficient Predictions
In an impressive breakthrough emerging from China, researchers at Nanjing University of Sc...