Two galvanometers A and B require 3mA and 5mA respectively to produce the same deflection of divisions. Then
1. A is more sensitive than B
2. B is more sensitive than A
3. A and B are equally sensitive
4. Sensitiveness of B is 5/3 times that of A
There long straight wires A, B and C are carrying current as shown figure. Then the resultant force on B is directed
1. | Towards A |
2. | Towards C |
3. | Perpendicular to the plane of paper and outward |
4. | Perpendicular to the plane of paper and inward |
Two long conductors, separated by a distance d carry current and in the same direction. They exert a force F on each other. Now the current in one of them is increased to two times and its direction is reversed. The distance is also increased to . The new value of the force between them is-
1.
2.
3.
4.
Current i is carried in a wire of length L. If the wire is turned into a circular coil, the maximum magnitude of torque in a given magnetic field B will be:
1. 2.
3. 4.
Three long, straight parallel wires carrying current, are arranged as shown in figure. The force experienced by a 25 cm length of wire C is
1.
2.
3. Zero
4.
An arrangement of three parallel straight wires placed perpendicular to the plane of paper carrying the same current I along the same direction as shown in the figure. Magnitude of force per unit length on the middle wire B is given by:
1.
2.
3.
4.
A long wire carrying a steady current is bent into a circular loop of one turn. The magnetic field at the center of loop is B. It is then bent into a circular coil of n turns. The magnetic field at the centre of this coil of n turns will be
1. nB
2.
3. 2nB
4.
An electron is moving in a circular path under the influence of a transverse magnetic field of T. If the value of e/m is C/kg, the frequency of revolution of the electron is
1. 1 GHz
2. 100 MHz
3. 62.8 MHz
4. 6.28 MHz
A long solenoid has 1000 turns. When a current of 4.0 A flows through it, the magnetic flux linked with each turn of the solenoid is Wb. The self-inductance of the solenoid is-
1. 3H
2. 2H
3. 1H
4. 4H
A square loop ABCD carrying a current i, is placed near and coplanar with a long straight conductor XY carrying a current I, the net force on the loop will be:
1.
2.
3.
4.