Dive into the exciting world of magnetic energy with our latest experiment focusing on motor-generator systems! In this video, we explore the intricate mechanics of harnessing magnetic forces to ...

In this exciting video, we delve into a fascinating science experiment exploring the interaction between matches and magnets. Witness incredible demonstrations that reveal surprising results. Learn ...

The strongest magnetic fields on Earth that we can currently produce are courtesy of MagLab in Tallahassee, Florida, at their pulsed field facility.

Tokamaks are machines that are meant to hold and harness the power of the sun. These fusion machines use powerful magnets to contain a plasma hotter than the sun's core and push the plasma's atoms to ...

In Hefei, China, physicists switched on a new machine that pushed magnetic fields to record strength. As the device powered up, it held a magnetic field more than 700,000 times stronger than Earth’s ...

In a remarkable leap for quantum physics, researchers in Japan have uncovered how weak magnetic fields can reverse tiny electrical currents in kagome metals—quantum materials with a woven atomic ...

Postponing the inevitable is doing Mandy no favors. She’s at an impressionable age, and the attitudes the little girl is forming may remain with her for the rest of her life unless she receives help.

The 2025 Nobel prize in Physics has been awarded to three scientists for the discovery of an effect that has applications in medical devices and quantum computing.

In a recent study, we tested a practical fix: two “magnetic cleaning powders” that can attach onto microplastics in water; the combined clumps can then be pulled out using a magnet. These materials ...

Microplastics are the crumbs of our plastic world, tiny pieces that come from bigger items breaking apart or from products like synthetic clothing and packaging. They're now everywhere. Scientists ...

Every year as the announcement of the Nobel Prize approaches, expectations for potential candidates rise. SAGAWA Masato, the inventor of the world’s strongest permanent magnet, the neodymium magnet, ...

A single-step high-pressure industrial process replaces complex irradiation methods, producing quantum-grade nanodiamonds with stable spins and long lifetimes for scalable sensing and imaging.