What are Maglev trains and how do they work?
Unlike conventional trains that use wheels, the Maglev is based on magnetic levitation. Electromagnets levitate the train a short distance just above the tracks. These magnets also create the thrust that moves the train.
What are the 2 types of maglev trains?
There are two primary types of maglev technology: electromagnetic suspension (EMS) uses the attractive magnetic force of a magnet beneath a rail to lift the train up. electrodynamic suspension (EDS) uses a repulsive force between two magnetic fields to push the train away from the rail.
What is the German maglev train called?
Transrapid
Transrapid is a German-developed high-speed monorail train using magnetic levitation. Planning for the Transrapid system started in 1969 with a test facility for the system in Emsland, Germany completed in 1987.
How are magnets used to push a magnetic train?
Where the train uses the magnetic field of a current to push magnets, the motor uses the field of a magnet to push the electrical current. To explain the the motor, we therefore need one more piece of information: how a magnetic field effects moving charges.
Who is the inventor of the magnetrain train?
Magnetrain is the name for a maglev train system using a permanent magnet levitation system. It was first conceived by the American inventor, Colonel (ret.) Roy D. Vinson, in 1972. At that time, the idea of high-speed rail transport using magnetic levitation was in the air.
What kind of battery does a magnetic train use?
I used a AAA battery as the power source, and a pair of strong neodymium magnets I had on hand; to give the train more “oomph,” additional magnets could be used on either side of the battery. I used 18 gauge copper wire for the coil, and wrapped it around a 1/2” ring stand to coil it.
How are magnetic fields used in a maglev train?
Magnetic fields are used to counteract the effects of gravitational acceleration and any other accelerations involved. The Maglev train moves along the support path. There are three processes involved in the working of Maglev.