Every breath of air, every strand of DNA and every cell in my body carries a chemical story that began long before Earth ...

New research reveals that Earth’s solid inner core is actually in a superionic state, where carbon atoms flow freely through ...

The Cassiopeia A supernova remnant reveals that massive exploding stars can forge far more of life's essential ingredients ...

Researchers have discovered that not all atoms in a liquid are in motion and that some remain stationary regardless of the ...

Boron, a chemical element next to carbon in the periodic table, is known for its unique ability to form complex bond networks. Unlike carbon, which typically bonds with two or three neighboring atoms, ...

Some of the elements used by living systems are far more abundant in Cassiopeia A than we thought, hinting that some parts of ...

If not in visible stars and galaxies, the most likely hiding place for the matter is in the dark space between galaxies.

If you look across space with a telescope, you'll see countless galaxies, most of which host large central black holes, ...

Chinese researchers have discovered that interstitial carbon in iron-carbon alloys behaves in a superionic, liquid-like state ...

Billions of tons of silicon and oxygen surround us, yet one element hides in nearly invisible traces. It's rarer than gold, and most people have never even heard its name.

Primordial nucleosynthesis during the early universe generated hydrogen, helium, and minor lithium-7 before the cosmos cooled, halting further fusion. Stellar interiors synthesize elements up to iron ...

Note: This video is designed to help the teacher better understand the lesson and is NOT intended to be shown to students. It includes observations and conclusions that students are meant to make on ...