Scientists have created paper-thin “magnetic muscles” that can make tiny origami robots move—opening up exciting new ...

Madonna Yoder ’17 studied rocks at MIT. But her passion is for paper—with no scissors. Today, she’s a tessellation expert who ...

A new 3-D printing technique can create paper-thin "magnetic muscles," which can be applied to origami structures to make them move.

Unlock the art of origami with our step-by-step guide to creating beautiful paper creations. In this video, we’ll walk you through the fundamental techniques needed to transform simple pieces of paper ...

Dive into the enchanting world of paper art with our latest tutorial on "Charming Origami Photo Frames." Discover step-by-step instructions to create beautiful, handmade frames to showcase your ...

A new 3D printing technique can create paper-thin "magnetic muscles," which can be applied to origami structures to make them ...

Abstract: Multidirectional motion ability is a significant factor for crawling robots. Inspired by the Kresling origami pattern, this work introduces a soft pneumatic actuator that can achieve a ...

The amplituhedron is a geometric shape with an almost mystical quality: Compute its volume, and you get the answer to a central calculation in physics about how particles interact. Now, a young ...

Abstract: Robots that share activity spaces or physically interact with humans typically benefit from appropriate payload capacity, extensible workspace, low weight, safety, and space efficiency. The ...

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