When the North pole of a bar magnet is pushed towards the coil, the pointer in the galvanometer deflects. Fig. (i) show that it is the relative motion between the magnet and coil that is responsible for generation of electric current in the coil. In Fig. (ii), the bar magnet is replaced by a second coil C2 connected to a battery. The steady current in the coil C2 produces a steady magnet field. As coil C2 is moved toward the coil C1, the galvanometer shows a deflection. Again, it is the relative motion between the coils that induces the electric current. The change in magnetic flux

Question

When the North pole of a bar magnet is pushed towards the coil, the pointer in the galvanometer deflects. Fig. (i) show that it is the relative motion between the magnet and coil that is responsible for generation of electric current in the coil. In Fig. (ii), the bar magnet is replaced by a second coil C2 connected to a battery. The steady current in the coil C2 produces a steady magnet field. As coil C2 is moved toward the coil C1, the galvanometer shows a deflection. Again, it is the relative motion between the coils that induces the electric current. <img class="img-fluid question-image" alt="image" src="https://cdn.tardigrade.in/img/question/physics/0186e2633396ebc6193886bfd67f3a71-.png" /> The change in magnetic flux (A) decreases the radius of the coil C1 to half the initial radius (B) induces emf in the coil C1 (C) increases the radius of coil C1 to double the initial radius (D) None of the above

Tardigrade Admin · Accepted Answer

Correct answer is (b) induces emf in the coil C1

decreases the radius of the coil $C_{1}$ to half the initial radius

induces emf in the coil $C_{1}$

increases the radius of coil $C_{1}$ to double the initial radius

None of the above

Correct answer is (b) induces emf in the coil $C_{1}$

decreases the radius of the coil C1​ to half the initial radius

induces emf in the coil C1​

increases the radius of coil C1​ to double the initial radius

None of the above

Correct answer is (b) induces emf in the coil C1​

decreases the radius of the coil $C_{1}$ to half the initial radius

induces emf in the coil $C_{1}$

increases the radius of coil $C_{1}$ to double the initial radius

Correct answer is (b) induces emf in the coil $C_{1}$