A South Korean mathematician has solved a geometry puzzle that baffled experts in the field for nearly six decades.

Inspired by biological systems, materials scientists have long sought to harness self-assembly to build nanomaterials. The challenge: the process seemed random and notoriously difficult to predict.

Tessellations aren’t just eye-catching patterns—they can be used to crack complex mathematical problems. By repeatedly ...

Generative design helps engineers explore design, delivering 30-50% faster time-to-market, 10-50% weight reductions, and up ...

Cryptocurrencies, like Bitcoin, are often too volatile for everyday use. Stablecoins, digital coins linked to steady assets ...

Researchers have proposed a unifying mathematical framework that helps explain why many successful multimodal AI systems work ...

The New York–based program studies how structured musical elements may assist student understanding of math concepts. Structured rhythm can provide a framework that helps students organize and ...

Refresh your home for the new year with design inspiration from Arizona to Virginia, featuring stylish updates, cozy trends, ...

Florida homes are embracing bold geometric patterns, blending Art Deco roots, coastal influences, and modern design for ...

From a gold-topped tower in Chicago to a Nile-side palace in Cairo, these 20 hotels don’t put art deco behind the glass — ...

Bestselling math author Danica McKellar has valuable communication tips from a career as a professional storyteller.

Big Ideas Learning, based in Erie, provides a $250 cash prize each week to Golden Apple Award-winning teachers. Celebrating ...