Spinning Wire Experiment at Charles Grose blog

Spinning Wire Experiment. How to make a homopolar motor from a battery, magnets and copper wire. The interaction between the magnetic field and the magnet causes the wire to spin, creating a simple motor. You can experiment with this device by switching the terminals on the battery, adding a battery, or flipping the magnets. Motors can be very complicated but. Try adding more magnets, or change the position of the magnets. Our copper wire is conducting electricity from one end of the battery to the other. In this experiment, we will make a homopolar motor! As it moves through the magnets on the negative side of the battery, it creates a force which causes the wire to spin. An electric current in a wire moves through a magnetic field producing a force which will spin the wire. Motors run on pretty much the same principle:

Motors run on pretty much the same principle: In this experiment, we will make a homopolar motor! Try adding more magnets, or change the position of the magnets. You can experiment with this device by switching the terminals on the battery, adding a battery, or flipping the magnets. The interaction between the magnetic field and the magnet causes the wire to spin, creating a simple motor. An electric current in a wire moves through a magnetic field producing a force which will spin the wire. Motors can be very complicated but. Our copper wire is conducting electricity from one end of the battery to the other. How to make a homopolar motor from a battery, magnets and copper wire. As it moves through the magnets on the negative side of the battery, it creates a force which causes the wire to spin.

Make a Spinning Wire Sculpture (Homopolar Motor)

Spinning Wire Experiment You can experiment with this device by switching the terminals on the battery, adding a battery, or flipping the magnets. How to make a homopolar motor from a battery, magnets and copper wire. You can experiment with this device by switching the terminals on the battery, adding a battery, or flipping the magnets. An electric current in a wire moves through a magnetic field producing a force which will spin the wire. Motors can be very complicated but. As it moves through the magnets on the negative side of the battery, it creates a force which causes the wire to spin. Try adding more magnets, or change the position of the magnets. Motors run on pretty much the same principle: In this experiment, we will make a homopolar motor! Our copper wire is conducting electricity from one end of the battery to the other. The interaction between the magnetic field and the magnet causes the wire to spin, creating a simple motor.