Magnetic levitation trains, better known as maglev trains, have recently achieved a staggering speed of 800 miles per hour. This remarkable development marks a significant stride in transportation ...

Maglev bullet trains promise a future where steel wheels and clattering rails give way to smooth, floating speed. Yet the reality on today’s tracks is more nuanced, with some systems gliding entirely ...

China's push for high-speed transportation has taken a major leap forward with its experimental T-Flight maglev train. Designed to reach record-breaking speeds, this levitating train could ...

Europe is very close to making a huge move for its railway industry. A test by Italian firm IronLev has provided successful examples of how a magnetic levitation train, or maglev, might work on ...

Transportation accounts for 16.2% of all global carbon pollution, according to Our World In Data. That is an extraordinary figure considering how much we rely on getting around as quickly and ...

The transportation landscape is experiencing a remarkable shift with the emergence of maglev technology. These magnetic levitation trains hover above their tracks using powerful magnets, eliminating ...

The magnetic levitation train is propelled forward by powerful electromagnets and hovers about the rail. The concept allows trains to hit speeds of hundreds of miles per hour because there’s no rail ...

As the United States struggles to keep its major cities connected by even the most barebones rail systems, China is screaming into the future with the development of a levitating bullet train. Called ...

SINCE the 1960s, transportation industry planners have sought an energy-efficient design for a train that can glide through air at speeds up to 500 kilometers per hour. This type of train, called a ...

The development of electrodynamic suspension (EDS) systems has significantly advanced magnetic levitation transport, offering robust levitation and guidance through electromagnetic interactions. At ...

Magnetic levitation demonstrated using a Dremel tool spinning a magnet at 266 Hz. The rotor magnet is 7x7x7 mm3 and the floater magnet is 6x6x6 mm3. This video show the physics described in the work ...