Maglev Consequences

As a result of the magnetic levitation, the magnetic levitation ground transport, or "magnetic levitation" is an advanced ground speed high speed transport mode in which a vehicle sliding on a rail is magnetically suspended, guided and propelled. Magnetic levitation vehicles can be designed to run at very high speeds of 500 kilometers per hour (300 miles per hour) as they never cause friction due to contact with the guide tracks. Americans travel 2 trillion kilometers (2 trillion miles) in cars, trucks, buses, public transportation and 8 billion kilometers (6.1 billion miles) on Amtrak's road.

Applying magnetic levitation (magnetic levitation) technology to transport networks around the world may seem like a futuristic idea, but since 1984 a train running on a magnetic levitation system is running. In 2015, the speed of Japanese linear motor cars exceeded 600 km / h, but researchers at Southwest Jiaotong University in China are testing prototypes of ultra high speed bullet trains based on magnetic levitation technology. The Super Maglev train uses the same basic technology as the previous version, except for the next generation transmission innovation that can reduce air friction and speed by using a vacuum tube. As traditional magnetic levitation projects are still under consideration in major cities in the US and Asia, these trains will be operated in the coming years.

In 2016 China began the first local linear motor car in Changsha and transported passengers from the South Station to the airport at a maximum speed of 100 km / h. Last year, the first linear motor car in Beijing was also running at home, driving at 100 km / h.

Researchers in China are studying the next stage of train transport, surpassing magnetic levitation technology. China and Japan already have a very fast magnetic levitation train that can reach over 260 mph per second, but the new next generation magnetic levitation technology known as super magnetic levitation train will clearly be faster. With 3D glasses, scientists and engineers will actually be able to actually experience and move what they choose, whether it is a human body or a planet of the solar system. Cave 2 has great potential for large amounts of data that need to be visualized in particular.

Modern technical miracles from MRI to particle accelerators (such as Large Hadron Collider) depend on superconducting materials. However, I would like to use a magnetic levitation train as an example. The term magnetic levitation is an important part of magnetic levitation. As a result of engineering, the L0 train in Japan set the track speed record of rail cars at 603 km / h (375 mph) per hour. In addition to moving parts, some interesting features of this type of vehicle are very fast. There is no friction between the track and the car, and it can accelerate and decelerate more effectively than the conventional train. There are disadvantages. The system is much more expensive to build, only the benefits that increase compared to cost and risk