A bar magnet is placed along the axis of the loop and carrying away from it as shown in figure. The direction of the current as seen from other side is

The current flows from A to B as shown in the figure The direction of the induced current in the loop is :

A circular loop is placed near a current carrying conductor as shown in figure. Find the direction of induced current, if the current, in the wire is decreasing.

Find the magnetic moment of the current carrying loop shown in figure.

A current carrying solenoid is approaching a conducting loop as shown in the figure. The direction of induced current as observed by an observer on the other side of the loop will be

A bar magnet is moved along the axis of a copper ring placed far away from the magnet. Looking from the side of the magnet, an anticlockwise current is found to be induced in the ring. Which of the following may be true?

Two identical circular loops P and Q carrying equal currents are placed such that their geometrical axis are perpendicular to each other as shown in figure. And the direction of current appear’s anticlockwise as seen from point O which is equidistant from loop P and Q. Find the magnitude and direction of the net magnetic field produced at the p oint O. tan theta = (B_2)/(B_1)=1, theta = pi//4 .

A short current carrying conductor is placed perpendicular to the axis of a current carrying ring as shown. The direction of force acting of the conductor is

A closed conducting ring is placed in between two bar magnets as shown in the figure. The pole strength of M_1 is double that of M_2 . When the two bar magnets are at same distance from the centre of the ring, the bar magnet M_1 has given a velocity 2v while M_2 is given velocity v in the direction as shown in the figure. The direction of induced current in the ring as seen from XX from this moment to the moment till bar magnets collide is

A closed conducting ring is placed in between two bar magnets as shown in the figure. The pole strenght of M_(1) is double that of M_(2) . When the two bar magnets are at same distance from the centre of the ring, the bar magnet M_(1) has given a velocity 2v while M_(2) is given velocity v in the direction as shown in the figure. The direction of induced current in the ring as seen from X X from this moment to the moment till bar magnets collide is