Magnetic flux in a circular coil of resistance `10Omega` changes with time as shown in figure. `otimes` direction indicates a direction perpendicular to paper inwards. Match the following table.

Magnetic field in cylindrical region of radius R in inward direction is as shown in figure.

A V-shaped conducting wire is moved inside a magnetic field as shown in figure. Magnetic fiel d is perpendicular to paper inwards. Then

A circular loop of wire is carring a current i (as shown in the figure). On applying a uniform magnetic field inward perpendicular to the plane of the loop, the loop

Magnetic flux in a circuite containing a coil of resistance 2Omega change from 2.0Wb to 10 Wb in 0.2 sec . The charge passed through the coil in this time is

Three coils are placed infront of each other as shown currents in 1 and 2 are in same direction while that in 3 is in opposite direction. Match the following table

A conducting loop is held in a magneitc field such that the field is oriented perpendicular to the area of the loop as shown in the figure A any instant, magnetic flux density over the entire area has the same value but it varies with time as shown in the figure B odot observer vec(B) (positive direction of field ) Match the following .

In the circuit diagram shown in figure, potential difference across 3Omega resistance is 20 V. Then, match the following two columns.

A conducting rod of length l and mass m is moving down a smooth inclined plane of inclination theta with constant i is flowing in the conductor in a direction perpendicular to paper inwards. A vertically upward magnetic field vec B exists in space. Then, magnitude of magnetic field vec B is

A metallic ring (radius R) of negligible resistance has a resistance r connected across its diameter as shown in the figure. It is moving with velocity v_(0) in a constant magnetic field B_(0) acting perpendicular to the plane of the paper in the inward direction. The current in the resistance is :

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.