Question

Faraday's law of electromagnetic induction

Answer 1

⭐《ANSWER》

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↪Actually welcome to the concept of the ELECTROMAGNETIC INDUCTION

↪Basically here, The Michael Faraday's Law of Electromagnetic Induction states that ,

〽In A Conductor , When there is Change in the Magnetic Field, there is change in the Magnetic flux , and thus the Further change in the Magnetic flux leads to the Production of the Induced Emf in the coil

〽Basically here , the Magnetic flux refers to the Number of Magnetic lines of force passing through a closed surface

↪so here , mathematically we get as ,

⭐d⊙/dt = - e

Answer 2

Answer:Faraday's Law of Electromagnetic Induction :

A change in the magnetic environment of the coil or conductor will cause a voltage(emf) induce in the coil. Faraday law is the fundamental relationship which comes from the Maxwell’s equation.

◇ Faraday's First Law : A conductor is induced with an electromotive force when the surrounding magnetic field changes.

◇ Faraday's 2nd Law : The rate of change of field is directly proportional to the magnitude of the electromotive force.

◇ Faraday's 3rd Law : The sense of the induced electromotive force depends on the direction of the rate of the change of the field.

E= – ndǿ/ dt.

In this the induced emf (e) and the change in magnetic flux (d) have opposite signs.

Explanation: