AN earth magnet generator is the most common type of rare-earth magnetic generator. Unlike some other types of generators that use magnets to produce electricity or produce heat, this type uses an array of magnets to create the electrical power needed to run a household appliance.
An NDE (Necessary Electronic Materials) magnetic generator can be run on almost any type of magnet, but in the case of the neodymium magnets, a few special ones are required. The most common form of neodymium generator produces about 7 watts of electrical energy using the two magnets located on opposite ends of the coil. In order to produce this amount of energy, the neodymium magnets need to be arranged in a loop that goes around the coil. When they are arranged in this way, each magnet has about 7 degrees of freedom, meaning that they can spin clockwise or counterclockwise.
The number of degrees of freedom that the magnets have depends upon how close the coils of the earth magnets are to the free space that surrounds the magnets. If the coils are too close to the free space surrounding the magnets, the amount of energy that is produced will be significantly lower than when the coils are farther from the space.
Because of this, in many cases the closer the coils are to the free space, the larger number of degrees of freedom that the magnets have available. In fact, with enough degrees of freedom available, it is possible to have all the different elements of the magnets move simultaneously, such as spin the magnets in opposite directions, thus producing a much higher energy output.
The NDE magnetic generators that use these magnets are also known as NEDs (Neodymium Electron Degenerator). As the name suggests, an NDE is an electron decelerator, which means that it uses magnets to accelerate an electron to extremely high speeds. This accelerates the electrons, which then creates the high amount of energy that is needed to produce electricity.
Another more common form of a NDE magnet is a magnetic generator that uses a combination of three or four magnets. Two of the magnets are used to produce the spinning motion that is needed to create the maximum amount of energy that is produced, while the third is used to repel particles, creating an opposite force that pulls the particles toward the magnets. The spinning motion that is created in this process is known as an axial rotation and is what causes the magnets to spin at an opposite direction.