If you could take an apple and break it into smaller and smaller parts, you would find molecules, then atoms, followed by ...

A link between particle physics and gravity equations, called the double copy, applies to Hawking radiation, creating a new ...

An invisible force has long eluded detection within the halls of the world’s most famous particle accelerator—until now.

The muon mismatch was caused by calculation limits, not a new force. Improved methods bring theory and experiment into close ...

Black holes have a problem that physicists still cannot explain. According to Stephen Hawking’s ...

A major obstacle in calculating the muon’s behavior is the strong force, the most powerful of the four fundamental forces, along with gravity, electromagnetism, and the weak force. It binds quarks ...

E = mc 2 is probably the most recognized physics equation among the general public, beating out Newton's Second Law of motion, F = ma. Despite that recognition by the outside world, E = mc 2 is hardly ...

What is the Stokes-Einstein Equation? The Stokes-Einstein equation is a fundamental relation in physics that describes the diffusion of spherical particles through a fluid with low Reynolds number. It ...

Physicists have long sought to describe the universe in terms of equations. Now, S James Gates explains how research on a class of geometric symbols known as adinkras could lead to fresh insights into ...

Programmable optical particle transport based on structured light plays a crucial role in microscale manipulation. Scientists ...