This is a very simple and great way to explore the motor. Kids of all ages will love this and it\'s a great way to see how electricity translates into physical exercise. Most of these materials you will be at home. Wrap the magnet line around the cylinder 10 times, leaving some extra wires at both ends. Make sure the extra wires are at both ends of the coil. Carefully remove the coil from the cylinder, and then wrap the coil at both ends using the end to secure the coil. Keep in mind that you want your coil to be as close to a circle as possible. After the coil is fixed, the additional ends will be straightened, and these ends will be used as the axis of rotation. After you\'re done, you should basically have a coil loop with two shaft ends (the extra wire). The paper clip has two purposes: Our bending is not necessarily perfect and we can always make adjustments later. The first bend will be to open the two rings of the clip. Make the bending so that there is a 90 degree angle between the two loops. The second bend is to open the small ring to \"V \". The third bend is to bend the end and middle of the large loop to \"V \". Repeat this so you have two identical support clips. Fyi I can make all the bends with only my fingers, but feel free to use pliers, which is easier for you anyway. The paper clip will be attached to the top of the cup so that the \"V\" at the top will support the coil. The stand with enough space far enough can do this so that the clip does not come into contact. Please check the example before installing to the Cup. This will be the support and power of the coil. We need to tie the clip to the cup and fix the copper wire to the clip so we can transfer the current. We just need to have some safe contact between the exposed copper and the paper clip, and it may be enough to wrap and twist the copper around the paper clip. The next step is optional, and I\'m just doing this to reduce the space needed for the final motor. I cut the Cup into size. The cup I use has a ring and I can follow with a knife, which makes it easier, but the cut doesn\'t need to be perfect. There are a few small steps to do this, but you want to tape it all together so that the coil can be supported evenly and can rotate freely. I am the symbol of the current because of the AC and the Motor Works. We are using batteries that provide DC current, so we need some alternative methods for current. In this case, we want the coil to have current every half of the circle. This is where the thin green enamel coating works. We just want to carefully polish from one side (half) Coating from the end of the wire, axle. Make sure you polish both axles on the same side. When doing so, the polished side should face the same direction at both ends. In addition, try to polish with a coil supported vertically. Fix the end of the wire to the table on the edge, then gently press the sandpaper on the top of the wire and pull it from one direction of the coil, passing it once, until you can see the copper wire. When this sanding part is in contact with the paper clip, the current will generate a magnetic field through the coil, which will be attracted or rejected by the magnet we place under the coil. When there is still a coated part in contact with the clip, there will be no current in the coil, basically closing the magnetic field and allowing the coil to continue to rotate using the momentum obtained. This process will continue to generate AC power effectively, making the coil spin faster. Place the magnet under the coil, connect the battery and let \"tear \"! You may need to push the coil a little. . . This is a great project where you can change the coil in the coil, the strength of the magnet, the current, etc. . . See how it changes the speed of rotation. Keep in mind that the opposite of what we have made is a generator, one of the most important inventions of all time, thanks michael faraday!