Shows a long current carrying wire and two rectangular loops moving with of velocity `v`. Find the direction of current in each loop.

Fig. 6.15 shows a current carrying solenoid moving towards a conducting loop. Find the direction of the current induced in the loop.

A current carrying straight wire passing inside a triangular loop as shown in Figure. The current in the wire is perpendicular to paper inwards. Find the direction of the induced current in the loop if current in the wire is increased.

A current carrying straight wire passes inside a triangular coil as shown in figure. The current in the wire is perpendicular to paper inwards. Find the direction of the induced current in the loop, if current in the wire is increased.

A current carrying wire (straight) passes inside a triangular coil as shown in figure. The current in the wire is perpendicular to paper inwards. Find the direction of induced current in the loop if current in the wire is increasing with time.

A rectangular loop of length 'l' and breadth 'b' is placed at a distance of x from an infinitely long wire carrying current 'i' such that the direction of current is parallel to breadth. If the loop moves away from the current wire in a direction perpendicular to it with a velocity 'v' , the magnitude of the e.m.f. in the loop is: ( mu_(0)= permeability of free space)

A rectangular loop is placed adjacent toa current carrying straight wire as shown in Figure. If the loop is rotated about an axis passing through one of its sides find the direction of induced current in the loop.

A rectangular loop is placed to the left of large current carrying straight wire as shown in Figure. Current varies with time as I=2t . Find direction of induced current I_("in") in the square loop.