All basic Motors follow the same idea of converting current into mechanical energy. This is the basic construction of a simple DC current (DC) Electric, magnetic, momentum, and inertia are used to rotate the motor and all motors. From computer fans to cars, to power tools, and even electric watches, electric motors are used in countless applications. These motors use basic laws for all magnets that attract and reject both ends of the magnet. When the current passes through the coil in the magnetic field, the magnetic force generates torque to make the coil turn. In many larger motors, magnets are magnets, but in the manufacture of such smaller motors, ordinary permanent magnets are used. These types of motors are called DC motors because they use DC (direct current)to function. Direct current is a one-way flow of charge that can be generated by batteries, thermocouple, solar cells, and other DC generators. That\'s why this simple motor can run on a D-core battery because it will output direct current. Once the motor starts, not just stops during rotation, the dynamic moment and inertia of the coil keep it rotating. The motor stops when one aspect of the motor is different steps. This is an interesting project that simply shows how easy it is to create an electric motor. No. 26 magnet line 1 small piece of sandpaper 1 small piece of small magnet line 1 D Battery 1 Rubber Band 1. Collect two large paper clips. * Do not bend the paper shown in the label picture, they may break. * 2. Bend the two paper clips on the plane to form the shape in figure 2. 3. Bend the two paper clips into the shape shown in figure 3. 4. Put the paper clip aside and move on. 1. Collect 22 inch magnet wires and D-core batteries. 2. Wrap the wires around the D-core battery and leave 3 to 4 inch extra wires from both ends. 3. Simply slide off the created coil and remove it from the battery. 1. Keep the coil as shown in Figure 1. 2. Wrap the end of the loose wire around the coil to keep the shape of the coil safe as shown in figure 2. 3. Get the sand paper as shown in figure 3. 4. As shown in Figures 4 and 5, completely polish the enamel coating off one end of the coil. 5. Important step: At the other loose end, polish the enamel completely from one side of the whole length while keeping the other side of the end still coated with enamel. Look carefully at pictures 4 and 5. 1. As shown in Figure 1, wrap the rubber band vertically around the battery. 2. Retrieve the curved paper clip and securely install it at both ends of the battery under the rubber band, as shown in Figures 2 and 3. 3. As shown in figure 4, place the small magnet on the battery. 1. As shown in Figure 1, place the coil in the creative forest of the paper clip to ensure that the loose end of half of the enamel remains positive (+) The end of the battery, which is the end of the bump. 2. Use the wire cutting machine to cut the loose end of the coil, so about 1 inch of each loose end remains as shown in figure 2. 3. As shown in figure 3, a simple motor is completed. . 4. To rotate the coil gently, it should start to rotate by using electricity. 5. If the coil itself does not start to rotate, proceed to the next troubleshoot step. 1. Check if the battery is dead. 2. Adjust the distance between the coil and the magnet by sliding the paper clip up and down. 3. Remove the coil and straighten the loose end. 4. If the coil is deformed, reshape it into a circle. Have fun with your simple motor! Building this simple DC motor is a great introduction to basic electrical/mechanical engineering. The motor demonstrated the use of a DC power supply to generate mechanical energy. This is a low-cost project using ready-made materials from a local hardware store and the final product is a memory gadget. Quote: Marshall Brian. How the motor works \"Look at the image. InfoSpace LLC, 2014. Web. 14 June 2015. R. \"How does the motor work? \"How the Motor Works. State University of Georgia, 2005. Web. 12 June 2015. \"SeaPerch. Org: electric motor. \"Electric motor. SeaPerch, 2013. Web. 14 June 2015.
