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 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.
1. | \(\frac{1}{2}\) | 2. | \(1\) |
3. | \(4\) | 4. | \(\frac{1}{4}\) |
A wire carrying current l has the shape as shown in the adjoining figure. Linear parts of the wire are very long and parallel to X-axis while the semicircular portion of radius R is lying in the Y-Z plane. Magnetic field at point O is :
1.
2.
3.
4.
An electron moving in a circular orbit of radius r makes n rotations per second. The magnetic field produced at the centre has magnitude:
A proton and an alpha particle both enter a region of uniform magnetic field B, moving at right angles to the field B. If the radius of circular orbits for both the particles is equal and the kinetic energy acquired by proton is 1 MeV, the energy acquired by the alpha particle will be
(1)4 MeV
(2) 0.5 MeV
(3) 1.5 MeV
(4) 1 MeV
A circuit contains an ammeter, a battery of 30 V and a resistance 40.8Ω all connected in series. If the ammeter has a coil of resistance 480Ω and a shunt of 20Ω then reading in the ammeter will be :
(1) 0.5A
(2) 0.25A
(3) 2A
(4) 1A
Two identical long conducting wires AOB and COD are placed at right angle to each other, with one above other such that O is their common point for the two. The wires carry I1 and I2 currents, respectively. Point P is lying at distance d from 0 along a direction perpendicular to the plane containing the wires. The magnetic field at the point P will be
(1) μo/2πd(I1/I2)
(2)μo/2πd (I1+I2)
(3)μo/2πd(I12-I22)
(4)μo/2πd(I12+I22)1/2
A current loop in a magnetic field
(1) experiences a torque whether the field is uniform or non-uniform in all orientations
(2) can be in equilibrium in one orentations.
(3) can be equilibrium in two orientations, both the wquilibriu states are unstable
(4) can be in equilibrium in two orientations, one stable while the other is unstable