Simple Electric Motor

Topics: Magnetic field, Michael Faraday, Magnetism Pages: 5 (792 words) Published: October 15, 2014
How to Make a Simple Electric Motor

Energy comes in many forms. Electric energy can be converted into useful work, or mechanical energy, by machines called electric motors. Electric motors work due to electromagnetic interactions: the interaction ofcurrent (the flow of electrons) and a magnetic field. Problem

Find out how to make a simple electric motor.
Materials Needed
D battery
Insulated 22G wire
2 large-eyed, long, metal sewing needles (the eyes must be large enough to fit the wire through) Modeling clay
Electrical tape
Hobby knife
Small circular magnet
Thin marker

1. Starting in the center of the wire, wrap the wire tightly and neatly around the marker 30 times. 2. Slide the coil you made off of the marker.
3. Wrap each loose end of the wire around the coil a few times to hold it together, then point the wires away from the loop, as shown: 4.
5. What is this? What is its purpose?
4. Ask an adult to use the hobby knife to help you remove the top-half of the wire insulation on each free end of the coil. The exposed wire should be facing the same direction on both sides. Why do you think half of the wire needs to remain insulated? 6.

5. Thread each loose end of the wire coil through the large eye of a needle. Try to keep the coil as straight as possible without bending the wire ends. 7.
6. Lay the D battery sideways on a flat surface.
7. Stick some modeling clay on either side of the battery so it does not roll away. 8. Take 2 small balls of modeling clay and cover the sharp ends of the needle. 9. Place the needles upright next to the terminals of each battery so that the side of each needle touches one terminal of the battery. 8.

10. Use electrical tape to secure the needles to the ends of the battery. Your coil should be hanging above the battery. 11. Tape the small magnet to the side of the battery so that it is centered underneath the coil. 9.

12. Give your coil a spin. What happens? What happens when you spin the coil in the other direction? What would happen with a bigger magnet? A bigger battery? Thicker wire? 10. Results
11. The motor will continue to spin when pushed in the right direction. The motor will not spin when the initial push is in the opposite direction. 12. Why?
13. The metal, needles, and wire created a closed loop circuit that can carry current. Current flows from the negative terminal of the battery, through the circuit, and to the positive terminal of the battery. Current in a closed loop also creates its own magnetic field, which you can determine by the “Right Hand Rule.” Making a “thumbs up” sign with your right hand, the thumb points in the direction of the current, and the curve of the fingers show which way the magnetic field is oriented. 14. In our case, current travels through the coil you created, which is called the armature of the motor. This current induces a magnetic field in the coil, which helps explain why the coil spins. 15. Magnets have two poles, north and south. North-south interactions stick together, and north-north and south-south interactions repel each other. Because the magnetic field created by the current in the wire is not perpendicular to the magnet taped to the battery, at least some part of the wire’s magnetic field will repel and cause the coil to continue to spin. 16. So why did we need to remove the insulation from only one side of each wire? We need a way to periodically break the circuit so that it pulses on and off in time with the rotation of the coil. Otherwise, the copper coil’s magnetic field would align with the magnet’s magnetic field and stop moving because both fields would attract each other. The way we set up our engine makes it so that whenever current is moving through the coil (giving it a magnetic field), the coil is in a good position to be repelled by the stationary magnet’s magnetic field. Whenever the coil isn’t being actively repelled (during those split second intervals where the circuit is switched...
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