explain electric generator
Answers
Electric Generator:-
●The electric motor, generator, and transformers all work on the principle of electromagnetic induction. The electric motor converts electrical energy into mechanical work. The electric generator works in the opposite way of an electric motor. It converts mechanical work into electrical energy. The source of mechanical energy varies from a wide range of hand cranks and combustion engines.
●An electric generator is a device which is used for the conversion of mechanical energy into electrical energy.
●The principle of working of a generator is such that the flow of electric charges can be induced by moving an electrical conductor in a magnetic field. Moving the conductor in the magnetic field or stationary conductor in a fluctuating magnetic field produces a voltage difference between the two ends of the wire (electrical conductor), thus producing an induced current.
●This conversion takes place when the electric charges move in the winding. The modern generation generators work on the principle of electromagnetic induction. The voltage difference is created between the two ends of the wire, which results in the flow of electric charges resulting in the production of electric current.
Answer:
An electric generator is a device which is used for the conversion of mechanical energy into electrical energy.
The principle of working of a generator is such that the flow of electric charges can be induced by moving an electrical conductor in a magnetic field. Moving the conductor in the magnetic field or stationary conductor in a fluctuating magnetic field produces a voltage difference between the two ends of the wire (electrical conductor), thus producing an induced current.
This conversion takes place when the electric charges move in the winding. The modern generation generators work on the principle of electromagnetic induction. The voltage difference is created between the two ends of the wire, which results in the flow of electric charges resulting in the production of electric current.
Explanation: