If a diamagnetic substance is brought near the north or the south pole of a bar magnet, it is:
1. | repelled by both the poles |
2. | repelled by the north pole and attracted by the south pole |
3. | attracted by the north pole and repelled by the south pole |
4. | attracted by both the poles |
A bar magnet having a magnetic moment of is free to rotate in a horizontal plane. A horizontal magnetic field exists in the space. The work done in taking the magnet slowly from a direction parallel to the field to a direction from the field is
(a) 0.6 J (b) 12 J
(c) 6 J (d) 2 J
Curie temperature is the temperature above which -
1. ferromagnetic material becomes paramagnetic material
2. paramagnetic material becomes diamagnetic material
3. paramagnetic material becomes ferromagnetic material
4. ferromagnetic material becomes diamagnetic material
Domain formation is the necessary feature of :
(1) ferromagnetism (2) diamagnetism
(3) paramagnetism (4) all of these
The magnetic susceptibility of a paramagnetic substance at -73C is 0.0060, then its value at -173C will be
1. 0.0030
2. 0.0120
3. 0.0180
4. 0.0045
The magnetic dipoles in a diamagnetic material are represented, for three situations. The three situations differ in magnitude if a magnetic field is applied to the material. In which situation the magnetization of the material is the greatest:
1. | \(A\) | 2. | \(B\) |
3. | \(C\) | 4. | Equal in \(A,B\) and \(C\) |
An iron rod of length L and magnetic moment M is bent in the form of a semicircle. Now its magnetic moment will be
1. M
2.
3.
4.
Time period of a freely suspended magnet does not depend upon
1. length of the magnet
2. pole strength of the magnet
3. horizontal component of earth's magentic field
4. length of the suspension thread
Relative permeability of iron is 5500, then its magnetic suceptibility will be -
1. 5501
2. 5499
3.
4. none of these
A current carrying coil is placed with its axis perpendicular to N-S direction. Let horizontal component of earth's magnetic field be and magnetic field inside the loop be H. If a magnet is suspended inside the loop, it makes angle with H. Then =
1.
2.
3.
4.