Through DNA origami, oligonucleotides form complex nanostructures, driving advancements in nanotechnology and offering ...

These doctors, who also have children on the spectrum, say that autism is far more complicated than the Tylenol discourse ...

Although crucial for mathematical problem solving and long-term STEM achievement, visuospatial skills remain a significant challenge for many students in the United States. Therefore, it is critical ...

In less than a month, "How to Train Your Dragon" will be yours to stream. The "stunning live-action spectacle" about a boy and his unlikely friendship with a flying beast will be available to stream ...

Researchers used their new technique to fold a glass bar (a), create an optical resonator (b), to achieve helical bending (c), and to create a table with a parabolic reflector (middle, lower row).

Sept. 10 (UPI) --Universal Pictures' live-action version of How to Train Your Dragon is expected to begin streaming in October on Peacock, the streaming platform announced Wednesday. The three ...

An origami-based structure will fold and twist in certain ways based on the structure's material properties and its geometry. When engineers prevent that natural motion, they call it "frustrating" the ...

Frustration: detrimental or desirable? Sometimes detrimental, but sometimes desirable to achieve new functionalities of nonrigid multistable origami structures. It provides the means to augment the ...

When Larissa Novelino began her engineering career, she never imagined she'd spend her days folding paper. "I was never the crafty, artistic type," Novelino said. "My mom still can't believe I ended ...

Researchers from Tel Aviv University have developed a chip-based method to fold glass sheets into microscopic 3D photonic structures – a process called photonic origami. The technique could produce ...

How to Train Your Dragon has become one of the biggest franchises for Universal Pictures, spawning three animated films, a live-action adaptation, and a television series. While the story of Hiccup ...

Hydrogels are soft, water-rich polymeric materials that can swell or shrink in response to environmental stimuli. This ability to change shape makes them valuable in miniaturized devices for flexible ...