a new robot destined to awe physics and engineering students everywhere. While the company has dabbled in robotics for academia before, the new e-nuvo WHEEL is a learning tool (be it science or ...

which then drive axles and turn wheels. A biohybrid-powered robot would replace this entire system with lab-grown organic muscle tissue that might power artificial legs or other limbs. Electrical ...

Robots could soon be 15 times as strong as humans thanks to a new artificial muscle. Scientists used a 3D printing technique to create the rubber-like synthetic muscle that could lead to the ...

The artificial muscle in use as a bicep lifts a skeleton's arm to a 90 degree position. Aslan Miriyev/Columbia Engineering Robots could soon be 15 times as strong as humans thanks to a new ...

While biohybrid robots that crawl and swim have been built before with lab-grown muscle, this is the first such bipedal robot that can pivot and make sharp turns. It does this by applying ...

Researchers at the school are using live muscle tissue in tandem with synthetic robot parts for a classification of robots known as “biohybrid.” MIT Professor of Engineering Ritu Raman ...

Other possible applications include robots that spy on the enemy in the battlefield. The KIMM team also hopes that morphing wheels will eventually be used with two- and four-legged robots ...

Other possible applications include robots that spy on the enemy in the battlefield. The KIMM team also hopes that morphing wheels will eventually be used with two and four-legged robots ...