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    • https://phys.libretexts.org/Workbench/NATSCI-1A/PHYSC-11_Text_(FCC)/08%3A_Magnetism/8.05%3A_Electromagnetism/8.5.03%3A_Electric_Motor
      When the charges move up through the part of the coil that is right next to the north pole, the right hand rule tells us that the wire suffers the force, F, pushing the wire in the direction of the bl...When the charges move up through the part of the coil that is right next to the north pole, the right hand rule tells us that the wire suffers the force, F, pushing the wire in the direction of the blue arrow, toward the back of the sketch. When experimenting with the simulation, you can manipulate the size of the motor, the strength of the input current, the strength of the magnetic field, and the number of turns in the wire:
    • https://phys.libretexts.org/Courses/Coalinga_College/Physical_Science_for_Educators_(CID%3A_PHYS_14)/12%3A_Magnetism/12.05%3A_Electromagnetism/12.5.03%3A_Electric_Motor
      When the charges move up through the part of the coil that is right next to the north pole, the right hand rule tells us that the wire suffers the force, F, pushing the wire in the direction of the bl...When the charges move up through the part of the coil that is right next to the north pole, the right hand rule tells us that the wire suffers the force, F, pushing the wire in the direction of the blue arrow, toward the back of the sketch. When experimenting with the simulation, you can manipulate the size of the motor, the strength of the input current, the strength of the magnetic field, and the number of turns in the wire:

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