Discover the physics behind stamps sticking to envelopes, from fundamental forces to Van der Waals interactions, explained ...

Kinetic energy has to do with the motion of an object—the faster it’s moving, the more kinetic energy it has. If you take a ...

Then there’s the doomy view best encapsulated by the title of a new book: If Anyone Builds It, Everyone Dies. The authors, ...

One of the only scientists in the world using a nuclear X-ray process to study deadly nanoparticles in wildfire smoke, Spada ...

As packaging integrates diverse substrates, adhesives, and exotic metals, manufacturers must rethink precision from the ...

Lawrence Berkeley National Laboratory has announced a new way to reliably make element 116, livermorium. The results, made by ...

You’ve probably seen this one before: first it looks like a rabbit. You’re totally sure: yes, that’s a rabbit! But then — ...

Two-dimensional (2D) metals, similar to graphene, are one-atom-thick elemental metals that exhibit unique properties due to ...

Two mathematicians have proved that a straightforward question — how hard is it to untie a knot? — has a complicated answer.

Researchers at UNSW have found a way to make atomic nuclei communicate through electrons, allowing them to achieve entanglement at scales used in today’s computer chips. This breakthrough brings ...

The neutral atom array architecture for quantum computing has been rapidly advancing over the last several years, and a ...

A ‘quantum telephone’ connecting atomic nuclei could make practical quantum computers easier to build and use.