Free Webinar | Sept 5: Tips and Tools for Making Progress Toward Important Goals April 27, 2015 Attend this free webinar and learn how you can maximize efficiency while getting the most critical things done right. Register Now » 2 min read If you knew a person that could scale a wall carrying an elephant or drag a blue whale with ease, they would be a real-life superhero, right? Well, some mechanical engineers at Stanford University have made tiny robots that have some Incredible Hulk-style strength of their own.The robots are called µTug or MicroTugs, and the miniature innovations can pull off some impressive feats. For example, a 9-gram robot climbing up glass can carry 100 times its own weight, and a 12-gram robot can sustain something 2,000 times its own weight.Related: These Giant Robotic Ants Could One Day Replace Factory WorkersThat blue whale analogy is pretty apt given the natural world inspiration behind the robot’s movements. Ants and geckos can climb as well as lift and drag things much bigger than them thanks to adhesives on their feet.The adorable robots were designed with flexible rubber spikes with a strong grip at the bottom of their “feet,” and they also move the way that an inch worm does, with one part of the “body” exerting effort while the other stays still to conserve energy.Related: The World Is Embracing Robots But America Keeps Them at Arms LengthWhile the tiny tech is currently relegated to the lab (and the big screen this summer, sort of), the engineers are also looking ahead to how it could be applied on a larger scale, like on a building site, or in an emergency situation to help save the day.