When people are dropped into the most dangerous of conditions – as when disaster strikes, or during exploration of another planet – they generally have the highest number of needs and the lowest ...

A joint research team from the Korea Advanced Institute of Science and Technology (KAIST) and the Unmanned Exploration Laboratory (UEL) has developed a transformative wheel capable of navigating the ...

Most modern cars stopped using drum brakes years ago, adopting disc brakes for their improved performance and heat resistance. Those sound like pretty good reasons, so you'd think they'd be just as ...

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 ...

Researchers have folded their way into a groundbreaking new family of origami patterns. Dubbed bloom patterns, because they resemble flowers as they unfold, the new class of origami shapes holds great ...

Bloom-patterned origami created by Brigham Young University student Kelvin Wang are pictured. One could ascertain that most origami patterns have been discovered because it has been an art form for ...

A new family of origami shapes that unfold like flower petals could be used to design more effective structures in space, like telescopes or solar panels. Origami structures, based on the Japanese ...

Bloom patterns could be useful, as engineers build folding structures to send to outer space. They’re also very pretty. Researchers have now found a new class of origami that they call bloom patterns, ...

GameSpot may get a commission from retail offers. Paper Mario: The Origami King is celebrating its five-year anniversary today, July 17, 2025. Below, we examine the ways the Paper Mario series has ...

Zackari is a writer for Game Rant who can be found in the United States. While he loves breaking down industry trends, he's also a fan just like everyone else, especially of Sonic the Hedgehog.

A study published in Nature Communications presents a way to create deployable structures that transform from compact folded states into expansive configurations with perfectly smooth surfaces.