Throw a green beam and leave your hands free to adjust your workpiece.

How do biological cells join forces to form a structure? In her Ph.D. research, Daphne Nesenberend uses mathematics to show ...

Baez called for the development of new mathematics — he called it “green” math — to better capture the workings of Earth’s biosphere and climate. For his part, he sought to apply category theory, a ...

Blizzards are a real-life example of what game theorists call the “snowdrift problem,” a cousin of the prisoner’s dilemma ...

Choosing the right method for multimodal AI—systems that combine text, images, and more—has long been trial and error. Emory ...

Vishnu Kannan had just begun learning math as an early elementary school student in Howard County when his older brother came to him with a math problem. If he could solve it, he’d earn a dozen ...

A hands‑on moment changes everything in this behind‑the‑scenes look. What happens when perfection meets a small mistake?

The unbridled hype of the mid-2020s is finally colliding with the structural and infrastructure limits of 2026.

With 10 regular-season rounds left, Eurohoops – with the help of Clutch Data – presents a projection of what may happen in ...

One ball on a Plinko board is unpredictable. Drop a thousand and they form a near-perfect bell curve—one of math’s most powerful ideas for 150+ years.

When I think about design process, from the initial moments of young people working on projects, all the way to the end where ...

Getting an up-close view of life at the cellular level can be as simple as placing onion skin under a microscope and adjusting the knobs. Peering deeper, into the heart of the atoms within, isn't as ...