Learn how to make a magnet motor generator at home with our step-by-step guide! This video will walk you through the entire process, from gathering materials to assembling your very own magnet motor ...

Discover the fascinating world of electromagnetism with our step-by-step guide on how to make the simplest motor at home. This video reveals the basic principles of creating a functional motor using ...

Nick Holroyd bought the property for cash after selling a flat. He hopes to make even more income from his holiday home by the end of the year ...

For the first time, scientists have created a fully functional memory chip only a few atoms thick and integrated it into conventional chips. This advance could pave the way for more powerful and ...

This is a free public event. The meeting room at the UT Resource Center, 1201 Oak Ridge Turnpike, will open at 11:15 a.m. Oct. 14 ...

“Most people don't realize that rubber gloves create the perfect conditions for pet hair removal,” explains Urbonas. “The rubber material generates static electricity when rubbed against fabric, which ...

But first, you should know that Sora is not just OpenAI’s AI video generation model. It's also a TikTok-like platform that lets you scroll through an infinite feed of 10-second-long, AI-created ...

Austin-based startup Base Power building a fleet of batteries at homes across Texas to support the grid—and helping homeowners get cheap access to backup power in disasters.

Hovering blue flames that flicker over bogs and marshes have inspired ghostly folktales for centuries. Known as “will-o’-the-wisp,” “jack-o’-lantern,” “corpse candle” and “ignis fatuus” (“foolish fire ...

While it’s almost impossible to do the laundry without some kind of washing powder, one expert is warning households to ditch fabric softener because it coats fabric in chemicals and does damage to ...

Flashes of microlightning between microscopic bubbles of methane in water may ignite the eerie blue flames of will-o’-the wisps, new research suggests.

A self-powered fabric with nanostructured materials converts sound into electrical signals and uses deep learning to recognize speech, turning clothing into a soft and responsive voice interface.