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The mechanical energy of wind pushes on the blades, turning them (still mechanical energy) turning blades turn the generator (still mechanical) The generator changes mechanical energy to electrical energy.
mechanical energy
A generator changes mechanical energy into electrical energy.
By far the most common example is an electric power generator. They are turned by wind or steam blown past a fan, or by falling water, and a significant portion of the input mechanical energy is available as output electrical energy.
Input movement/ Output movement = force magnification.
Then the motor will act as generator by principle
Motors and Generators are Transducers which convert one form of energy to another form. Constructionally both are same. Theoretically, same machine can function as both motor and generator depending upon the input it recieves. If it is supplied with mechanical input it gives out electrical output (Generator). If it is given electrical input, it gives out mechanical output (Motor).
Generators transform energy into electrical energy. The output of the generator is the electric power it "makes". The input is whatever is used to create mechanical energy to turn the "prime mover", or the thing that makes the generator spin (be it steam / thermal energy, water, wind, etc.).
Generator
The mechanical energy of wind pushes on the blades, turning them (still mechanical energy) turning blades turn the generator (still mechanical) The generator changes mechanical energy to electrical energy.
Mechanical input device
generator
it is used to select the type of input we want to give to any of our ckt's.... Input's such as sine, square, triangular, pulse etc....
A generator transforms mechanical energy into electrical energy.
Coupling field is link between electrical and mechanical energies in electromechanical energy conversions. If the output is mechanical (motor), coupling field reacts with input electrical energy in terms of Back EMF which opposes the input. Coupling field absorbs energy from electrical system, converts and delivers mechanical energy. If output is electrical (generator), coupling field reacts with input mechanical energy in terms of Magnetic Drag which opposes the input. Coupling field absorbs energy from mechanical system, converts and delivers electrical energy.
A generator converts mechanical energy into electrical energy.
Because it is rotating a coil of wire in a magnetic field, and this produces an electric current. It has to be driven by some sort of mechanical engine, which provides the input power.