Assertion (A): The bar magnet falling vertica | vedclass

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(C) According to Lenz's Law,when the north pole of a bar magnet falls towards a horizontal coil,the magnetic flux linked with the coil increases. To o

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If Assertion is true but Reason is false.

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(C) According to Lenz's Law,when the north pole of a bar magnet falls towards a horizontal coil,the magnetic flux linked with the coil increases. To oppose this increase,the coil induces a current such that the upper face of the coil acts as a north pole.This induced north pole repels the falling north pole of the magnet,creating an upward repulsive force. This force opposes the downward gravitational force,resulting in a net downward acceleration $a Since the upper face of the coil acts as a north pole,the current induced in the coil must be counter-clockwise (as viewed from above),not clockwise. Therefore,the Assertion is true,but the Reason is false.

Assertion $(A):$ The bar magnet falling vertically along the axis of the horizontal coil will have an acceleration less than $g$.
Reason $(R):$ Clockwise current is induced in the coil.

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Assertion $(A):$ The bar magnet falling vertically along the axis of the horizontal coil will have an acceleration less than $g$.Reason $(R):$ Clockwise current is induced in the coil.