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Physics-

General

Easy

Question

As shown in the figure, $P$ and $Q$ are two coaxial conducting loops separated by some distance. When the switch $S$ is closed, a clockwise current $I subscript P end subscript$ flows in $P$ (as seen by $E$ ) and an induced current $I subscript Q subscript 1 end subscript end subscript$ flows in $Q$ . The switch remains closed for a long time. When $S$ is opened, a current $I subscript Q subscript 2 end subscript end subscript$ flows in $Q$ . Then the directions of $I subscript Q subscript 1 end subscript end subscript$ and $I subscript Q subscript 2 end subscript end subscript$ (as seen by $E$ ) are

Respectively clockwise and anticlockwise
Both clockwise
Both anticlockwise
Respectively anticlockwise and clockwise

The correct answer is: Respectively anticlockwise and clockwise

When switch $S$ is closed magnetic field lines passing through $Q$ increases in the direction from right to left. So, according to Lenz’s law induced current in $Q i. e. I subscript Q subscript 1 end subscript end subscript$ will flow in such a direction so that the magnetic field lines due to $I subscript Q subscript 1 end subscript end subscript$ passes from left to right through $Q$ . This is possible when $I subscript Q subscript 1 end subscript end subscript$ flows in anticlockwise direction as seen by $E$ . Opposite is the case when switch $S$ is opened, $i. e. comma blank I subscript Q subscript 2 end subscript end subscript$ will be clockwise as seen by $E$

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