For a recent paper in Proceedings of the National Academy of Sciences, researchers investigated the odd physics of a ...

To reproduce, these minuscule creatures—roughly the size of a pinpoint—must leap 25 times their body length and land on a flying insect as it zooms overhead. Given that wind, gravity and air ...

But new research shows there’s another force working to their advantage: static electricity. At human scale, static electricity is little more than a curiosity. You walk across the carpet, friction ...

The paper, recently published in the journal PNAS, found that roundworms can use static electricity to leap up to 25 times ...

By studying how worms use electric charge to jump onto flies, scientists are showing even physical strategies are embedded in ...

In his home laboratory, Phil – a high school chemistry teacher who also runs a YouTube science channel – discovered that a simple solar panel can ...

Imagine a world without the glow of your screen, the hum of your fridge, or the instant communication across continents.

A parasitic worm uses static electricity to launch itself onto flying insects, a mechanism uncovered by physicists and ...

Microscopic parasitic worms use static electricity to pull themselves toward flying insects, turning physics into a powerful ...

A tiny worm that leaps high into the air—up to 25 times its body length—to attach to flying insects uses static electricity ...

Abstract: paper studies the impact of static electricity discharges in an unmanned aerial vehicle. An approach is proposed for predicting the electromagnetic resistance of UAVs under the influence of ...