The ceiling fan has a motor that converts electrical energy into mechanical energy. First, the capacitor of the ceiling fan torques up the electric motor, thereby causing it to start and run. As the electrical current reaches the motor, it enters coils of wire that are wrapped around a metal base.

Electric current in a wire, where the charge carriers are electrons, is a measure of the quantity of charge passing any point of the wire per unit of time. Current is usually denoted by the symbol I. Ohm’s law relates the current flowing through a conductor to the voltage V and resistance R; that is, V = IR.

There are mainly three types namely line to ground (L-G), line to line (L-L) and double line to ground (LL-G) faults.

There must be an energy source (battery) capable of doing work on charge to move it from a low energy location to a high energy location. This establishes a potential between the two ends of an electric circuit. 2. There must be a closed conducting loop that connects from the high potential to the low potential.

Every electric circuit, regardless of where it is or how large or small it is, has four basic parts: an energy source (AC or DC), a conductor (wire), an electrical load (device), and at least one controller (switch).

Ohm’s law describes current flow of a circuit as “current equals voltage divided by resistance”. If there is no EMF in a circuit the current will be zero so if this is zero then the current will also be zero so there must be EMF for there to be current flow.

The most significant difference between the static and current electricity is that in static electricity the charges are at rest and they are accumulating on the surface of the insulator. Whereas in current electricity the electrons are moving inside the conductor.

Electricity has many uses in our day to day life. It is used for lighting rooms, working fans and domestic appliances like using electric stoves, A/C and more. All these provide comfort to people. In factories, large machines are worked with the help of electricity.

Invest in alternative energy. Renewable energy sources are an excellent way to do this. Install solar panels to harness the power of the sun, build wind turbines, or power your home through a hydropower system. You may also consider installing a generator so you can power your own electric items.

We will have to use earthen lamps, lantern or candle-light instead of electric bulbs and tubes as it is now. If there would have been no electricity coolers, air-conditions, refrigerators, room heaters and other electric appliances would have not been there. The kitchens would have not been so equipped.

So yes, we will run out of electricity if we continue to rely on the burning of fossil fuels to drive transportation, power our personal energy devices, control the temperature of our homes, or run our industries. First, we are increasingly turning to renewables such as solar and wind for our growing electricity needs.

There is no such thing like infinite source of electricity. Infact, Electricity itself is a form of energy, which is made available by converting other forms of energy (like chemical energy, mechanical energy, solar energy etc.,).

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