China is testing a car that hovers using magnets and can reach speeds of 143 mph.

China is testing a car that hovers using magnets and can reach speeds of 143 mph.

Chinese researchers at Southwest Jiaotong University in Chengdu, Sichuan province, performed road tests last week for modified passenger cars that use magnets to float 35 millimeters above a conductor rail, according to Chinese state news agency Xinhua.

The researchers outfitted the sedans with powerful magnets on the vehicle floors, allowing them to levitate over a conductor rail nearly five miles in length. Eight cars in total were tested, with one test reaching speeds of roughly 143 miles per hour, according to the report.

During the tests, the cars were able to reach speeds of up to 143 mph with no issues. The video posted by the journalist shows the vehicles floating smoothly along the track.

The potential benefits of magnetic levitation for passenger vehicles are many. For one, it has the potential to reduce energy usage and increase the range of electric vehicles. This is due to the fact that there is no friction between the magnets and the conductor rail. Additionally, magnetic levitation could also improve safety as there would be no risk of tire blowouts or other mechanical issues that can occur at high speeds.

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The potential benefits of magnetic levitation for passenger vehicles.

Magnetic levitation has the potential to reduce energy usage for passenger vehicles.

Traditional cars rely on friction between the tires and the road to move. This means that a lot of energy is lost as heat, which reduces the efficiency of the car. Magnetic levitation, on the other hand, would allow cars to move without this friction. This would mean that less energy would be lost as heat, making the cars more efficient.

In addition, magnetic levitation could potentially increase the range of electric vehicles. Range anxiety is a major concern for many people who are considering buying an electric car. This is because electric cars can only travel for a certain distance before needing to be recharged. If magnetic levitation can help increase the range of electric vehicles, it would make them more appealing to consumers.

There are some challenges that need to be addressed before magnetic levitation can be used for passenger vehicles.

One challenge is that current magnetic levitation technology is not very stable. The cars need to be constantly monitored and adjusted in order to keep them hovering in the correct position. Additionally, magneticlevitating cars tend to vibrate more than traditional cars, which could make for a less comfortable ride.

Another challenge is that magnetic levitation requires special infrastructure, such as conductor rails or magnets embedded in the road surface. This infrastructure would need to be built before magnetic levitation could be used for passenger vehicles on a large scale.

Despite these challenges, magnetic levitation holds promise as a way to improve the efficiency and range of electric vehicles. If these challenges can be addressed, passengers may one day be able to enjoy smooth and comfortable rides in environmentally-friendly hover cars!

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