Stress is a very real factor in the structure of our universe. Not the kind of stress that students experience when taking a ...

This lesson utilizes an adaptation of the board game Subatomic: An Atom Building Game to help students learn about the different parts that make up an atom.

Whether as the protons and neutrons that help form chemical elements, the photons that we perceive as light or even the flows ...

Under their pulsed regime, Stolte and Lee observed the switching of the atom in real-time in the readout displayed on their ...

These particles have so little mass, they barely exist at all; roughly 10 billion trillion pass through the Earth every second without touching a single atom.

An international team including scientists from Princeton University has detected subatomic particles deep within the Earth's interior. The discovery could help geologists understand how reactions ...

Physicists working with the LHCb experiment at CERN have proven that a subatomic particle can switch into its antiparticle and back again.

Which returns us to our original question: what happens when a beam of subatomic particles traveling at nearly the speed of light meets the flesh of the human body?

The subatomic particles called neutrinos are famously elusive. But an unconventional trick could make a laser beam of the aloof particles.

Subatomic muon particles' weird wobble might break the laws of physics Something unseen is influencing muons, and the findings could lead to a bigger quantum uproar than the Higgs boson did.

Of all the subatomic particles that have any mass at all, the neutrino is the lightest by far. Researchers are closing in on determining its mass.

It is the fastest microscope in the world. This incredible microscope is able to snap an image of subatomic particles in a single attosecond. That is one quintillionth of a second.