Researchers have created a strategy allowing a one-legged robot to achieve upright landings after branch-to-branch jumps.

Researchers at MIT created synthetic muscle tissue that flexes in multiple directions, advancing the development of biohybrid robots for diverse applications.

By Liz Kimbrough In a lab in Türkiye, researcher Sedat Gündoğdu zooms in on the image of a small red fiber. For the first ...

China's robotics company - Unitree’s G1 has become the world’s first humanoid robot to flawlessly execute a side flip.

In the realm of science fiction, Dyson spheres and ringworlds have been staples for decades. But it is well known that the ...

How does the armored tiling on shark and ray cartilage maintain a continuous covering as the animals' skeletons expand during ...

We move thanks to coordination among many skeletal muscle fibers, all twitching and pulling in sync. While some muscles align ...

BMW M4 Competition vs Chevrolet C8 Corvette – A battle of precision vs. drama. Which high-performance machine comes out on ...

Parents today are generally aware of mental health conditions that relate to body image, including common disorders like ...

Learn 7 early signs of autism in young children, from communication differences to sensory sensitivities, empowering parents ...

What happens when one of the foremost hammock companies builds a hammock hot tent? A versatile tank of a fortress — if you ...

Against other XC and gravel clipless pedals, the Shimano XTR M9100s stand out as no-nonsense, durable, even boring. That they manage to be amongst the lightest, most widely adopted and the best value ...