It is a common misconception that if a magnetic generator was built to power a house, it could not, because of the power it provides for a house. However, there are other factors which apply in this case as well.
The generator draws a fixed amount of energy and this power does not depend on the wind.
A magnet does not have to be magnetic to work on a power circuit
The power required by a generator will depend on the load the generator powers, and it may require a slightly longer period of time before it is at full power compared to the power a house needs.
Even when there is an appreciable difference between a generator and a house, the generator will still work only slightly better. Thus, a generator can be used in a house for a variety of uses, such as:
Powering a lamp (using a simple lamp in a simple box with a magnet attached)
Using electricity to power lights
Keeping the water in the well hot and a light on
Using a generator to light candles or a small lamp
There are other special applications for a generator but this will not be covered in this article.
A magnetic generator
A generator can be thought of as an electromagnet which spins around an anode as well as an cathode (positive or negative) which has a permanent positive or negative magnet in it. The cathode and anode can be either metal (such as copper) or plastic (such as glass). The battery which the generator uses is placed between the anode and the battery. The battery also powers the motor that spins the generator and the generator can be powered by a direct current electrical supply such as a cigarette lighter or a DC power pack.
The purpose of a generator is usually to provide electricity to appliances or appliances in homes, such as a light in a room of bedrooms or a light in the bathroom. The generator is connected to the appliances by a transformer which is connected to a source of electricity with which it provides power to appliances connected to the lines, for example a light in the house.
Magnet generators operate at a current of about 4 volts (approximately 3 volts for the standard 120 volt home-use generator) and a magnetic field of about 5,000 gauss (approximately 4,000,000 gauss for a standard household generator).
The voltage provided to the power supply may vary slightly for the different appliances connected to the electrical circuits, for example from 3.3
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