State and explain Faradays' law of electromagnetic induction ?

Faraday's laws of electromagnetic induction states that, "whenever there is a change in the magnetic lines of force associated with a conductor, an e.m.f. is set up at ends of conductor, which lasts as long as the change is taking place".
The phenomenon of generating e.m.f. in this way is called electromagnetic the conductor is in the form of a closed circuit current flows in the circuit. The current produced in this way is called induced current.

Explanations

Faraday's electromagnetic induction law, also known as Faraday's law, is the electromagnetic constitution that predicts how a magnetic field interacts with an electrical circuit for electricity (EMF). This phenomenon is known as electromagnetic induction.

Michael Faraday discovered the law of electromagnetic induction in 1831. Faraday's law or electromagnetic induction law is observation or the result of the test carried out by Faraday. He conducted three main experiments to discover the phenomenon of electromagnetic induction.

Faraday's electromagnetic law

Faraday's electromagnetic induction law are two laws. The first law describes the induction of EMFs in conductors, while the second law determines the emf produced in conductors. In the next few sections.

Faraday's first electromagnetic induction law

The discovery and understanding of the electromagnetic induction is based on a series of long tests performed by Faraday and Henry. From empirical observations, Faraday concluded that when the flux changes across the coil over time, EMF is induced. Therefore, the first Faddi law of electromagnetic induction says:

The electrical forces are induced when the conductors fall into different magnetic fields. When the conductor circuit is closed, a current is induced and the current is called the current.

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Faraday's Second Electromagnetic Law

Faraday's second electromagnetic law is as follows:

The emf induced in the coil is equal to the amount of change in the flux bond.
After all the experiments, Faraday concludes that if there is a relative motion between the conductor and the magnetic field, connecting the flux with the coil changes and this change in the flux will cause voltage across the coil.

Conclusion

After all the experiments, Faraday concludes that if there is a relative motion between the conductor and the magnetic field, this change will cause voltage throughout the coil by bonding the flux and changing the coil.

The Faraday method basically states that "electric forces are produced over time when you change the magnetic flux or magnetic fields." In addition, Michael Faraday created two rules based on the above tests.