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Jun 14, 2016 · Maglev -- short for magnetic levitation -- trains can trace their roots to technology pioneered at Brookhaven National Laboratory. James Powell and Gordon Danby of Brookhaven received the first patent for a magnetically levitated train design in the late 1960s.
A magnetically levitated (maglev) train developed by Central Japan Railways Co. operates a test run on May 11, 2010 in Tsuru, Japan. Junko Kimura/Getty Images. The evolution of mass transportation has fundamentally shifted human civilization.
Dec 17, 2021 · The diagram on the right illustrates how it works: the train (blue, 10) rides on shoes (orange, 13), held a few millimeters (a fraction of an inch) above the outer rails of the track (red, 12) by a cushion of compressed air (15).
Maglev (derived from magnetic levitation) is a system of rail transport whose rolling stock is levitated by electromagnets rather than rolled on wheels, eliminating rolling resistance. [1][2][3]
Apr 13, 2022 · Maglev trains use superconducting magnets for efficient and high-speed travel, offering a safer and smoother alternative to traditional trains. What if you could travel from New York to Los Angeles in just under seven hours without boarding a plane?
May 17, 2023 · Maglev trains, also known as magnetic levitation trains, are a type of train that uses powerful magnets to levitate and propel the train forward. Unlike traditional trains that use wheels on tracks, maglev trains have no contact with the ground, resulting in a smoother and faster ride.
A cross-sectional diagram of the maglev train. The train has two magnets on the bottom of it. These magnets push against two magnets that form the tracks. If the force from the magnets is strong enough, the train will float in the air above the tracks.
May 12, 2006 · The goal of the Magnetic Levitation Train (MAGLEV) project is to develop a small scale magnetic levitation train based on Inductrack technology developed by Dr. Richard Post from Lawrence Livermore National Labs (LLNL).
Mar 27, 2013 · Among useful usages of magnetic levitation technologies, the most important usage is in operation of magnetically levitated trains. Maglev trains are undoubtedly the most advanced vehicles currently available to railway industries. Maglev is the first fundamental innovation in the field of railroad technology since the invention of the railroad.
A medium-low-speed (MLS) maglev has a running speed of less than 160 km/h, and future research studies on MLS maglev transportation will aim to achieve an operating speed of 200 km/h [2].
