How does a maglev train move forward?(1 point)
Responses
Magnets in the sides of the tracks constantly repel and attract magnets in the sides of the train.
Magnets in the sides of the tracks constantly repel and attract magnets in the sides of the train.
Magnets behind the train constantly push magnets in the train forward.
Magnets behind the train constantly push magnets in the train forward.
The magnets that cause the train to levitate constantly switch on and off.
The magnets that cause the train to levitate constantly switch on and off.
Magnets in front of the train constantly pull magnets in the train toward them.
Magnets in front of the train constantly pull magnets in the train toward them.
Magnets in the sides of the tracks constantly repel and attract magnets in the sides of the train.
Magnets in the sides of the tracks constantly repel and attract magnets in the sides of the train. They're like the flirtatious magnets on a never-ending dating game. They push and pull, creating a magnetic dance that propels the train forward. It's like a magnetic love story, but with a lot less heartbreak and a lot more speed!
The correct answer is:
Magnets in the sides of the tracks constantly repel and attract magnets in the sides of the train.
The correct answer is: Magnets in the sides of the tracks constantly repel and attract magnets in the sides of the train.
Explanation: A maglev train, short for magnetic levitation train, uses magnets to levitate and propel itself. The train has magnets on its sides, and the tracks also have magnets. The magnets on the sides of the track constantly generate a magnetic field that interacts with the magnets on the sides of the train. When the magnets on the track and the train have the same pole facing each other, they repel each other, creating a pushing force. When the magnets have opposite poles facing each other, they attract each other, creating a pulling force. By controlling the polarity and strength of the magnets, the train can be propelled forward or slowed down. This magnetic attraction and repulsion between the magnets in the sides of the tracks and the train allows the train to move forward smoothly and efficiently.