In this exciting video, we delve into a fascinating science experiment exploring the interaction between matches and magnets.

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

Breakthroughs from two rival experiments, Germany’s Wendelstein 7-X and the Joint European Torus, suggest the elusive dream ...

Strong and compact, rare-earth magnets have found their way into everything from electric cars and wind turbines to MRI machines and missile-guidance systems. And as with the rare-earth industry ...

Super-powerful magnets would boost the performance of electric cars and other green technology. ... N. Materials science: The pull of stronger magnets. Nature 472, 22–23 (2011) ...

Two German physicists have reimagined how to create powerful and uniform magnetic fields using compact permanent magnets. By ...

Many modern devices – from cellphones and computers to electric vehicles and wind turbines – rely on strong magnets made from ...

Researchers have achieved a major breakthrough by generating quantum spin currents in graphene—without relying on bulky ...

This article explores the fascinating science behind magnets, their types, how they work at the atomic level, and their role in modern technology and nature, including Earth’s magnetic field.

Magnets that generate persistent magnetic fields typically are composed of solids like iron, where the magnetic poles of densely packed atoms are all locked in the same direction (SN: 2/17/18, p. 18).

To test whether magnets could make a difference, the team took their research to ZARM’s drop tower, where an experiment, once placed in an airtight drop capsule, can achieve weightlessness for a ...