A magnet is suspended in such a way that it oscillates in the horizontal plane. It makes 20 oscillations per minute at a place where dip angle is 30o and 15 oscillations per minute at a place where dip angle is 60o. The ratio of total earth's magnetic field at the two places is
1. 2.
3. 4:9 4.
A bar magnet A of magnetic moment MA is found to oscillate at a frequency twice that of magnet B having identical size as magnet A, of magnetic moment MB when placed in a vibrating magneto-meter. We may say that
(1)
(2) MA = 8MB
(3) MA = 4MB
(4) MB = 8MA
A magnet of magnetic moment M oscillating freely in earth's horizontal magnetic field makes n oscillations per minute. If the magnetic moment is quadrupled and the earth's field is doubled, the number of oscillations made per minute would be
1. 2.
3. 4.
Two identical short bar magnets, each having magnetic moment M, are placed a distance of 2d apart with axes perpendicular to each other in a horizontal plane. The magnetic induction at a point midway between them is
(a) (b)
(c) (d)
The basic magnetization curve for a ferromagnetic material is shown in the figure. Then, the value of relative permeability is highest for the point :
1. P
2. Q
3. R
4. S
A superconductor exhibits perfect:
1. Ferrimagnetism
2. Ferromagnetism
3. Paramagnetism
4. Diamagnetism
Among the following properties describing diamagnetism identify the property that is wrongly stated
1. Diamagnetic material do not have permanent magnetic moment
2. Diamagnetism is explained in terms of electromagnetic induction
3. Diamagnetic materials have a small positive susceptibility
4. The magnetic moment of individual electrons neutralize each other
If a magnet is suspended at an angle 30o to the magnetic meridian, it makes an angle of 45o with the horizontal. The real dip is
(a)
(b)
(c)
(d)
The true value of angle of dip at a place is 60o, the apparent dip in a plane inclined at an angle of 30o with magnetic meridian is
(1)
(2)
(3)
(4)None of these
Two magnets \(A\) and \(B\) are identical and these are arranged as shown in the figure. Their length is negligible in comparison to the separation between them. A magnetic needle is placed between the magnets at point \(P\) which gets deflected through an angle \(𝜃\) under the influence of magnets. The ratio of distance \(d_1\) and \(d_2\) will be:
1. \((2 \tan \theta) ^{1 / 3}\)
2. \((2 \tan \theta) ^{(-1 / 3)}\)
3. \((2 \cot \theta) ^{1 / 3}\)
4. \((2 \cot \theta) ^{(-1 / 3)}\)