China is once again pushing the limits of high-speed rail with a bullet train that can go from 0 to 217 mph in under 5 minutes and hit speeds of 281 mph.

Federal officials cancelled $26 million in grants that would have funded a proposed high-speed train project between Baltimore and Washington, D.C. According to U.S. Department of Transportation ...

In that video, we spoke about many cool things such as superconductivity and electromagnetism, how are they related to Maglev trains, but also the principle of a linear motor thanks to which Maglevs ...

Bullet trains have revolutionized the way people travel, offering a faster, more efficient, and environmentally friendly ...

BALTIMORE (WBFF) — The federal government is pulling the plug after decades of grant spending and permit studies for a proposed 26.6-mile high-speed magnetic rail project between Baltimore and ...

A zero to 60 mph time of just under seven seconds is decent, but not too noteworthy. A zero to 100 mph in the same time would be astounding. But zero to 404 mph? Welcome to the future of trains, as ...

This article was republished with permission from WTOP’s news partners at Maryland Matters. Sign up for Maryland Matters’ free email subscription today. No high-speed train will be zooming throughout ...

China has successfully tested a magnetic levitation (Maglev) technology which could see trains travel faster than most planes. The most recent test, demonstrated at Donghu Laboratory in Hubei Province ...

As China builds out the next generation of magnetic levitation trains, the U.S. has a grand total of one maglev line in development. Or, make that had one in development, because Transportation ...

Maglev research could finally be getting more than a few inches off the ground. Two events of recent days may spark interest anew in technology that uses powerful electromagnets to float trains over ...

Maglev transportation systems utilise magnetic levitation to eliminate mechanical contact between the vehicle and the guideway, thereby reducing friction and wear while enabling exceptionally ...