Video Lecture
Theory For Notes Making
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Objective Assignment
1.
Magnetic moments of two bar magnets may be compared with the help of
(a) Deflection magnetometer
(b) Vibration magnetometer
(c) Both of the above
(d) None of the above
Ans (c)
2.
The time period of oscillation of a freely suspended bar magnet with usual notations is given by
(a) T=2\pi \sqrt{{\frac{I}{{M{{B}_{H}}}}}}
(b) T=2\pi \sqrt{{\frac{{M{{B}_{H}}}}{I}}}
(c) T=\sqrt{{\frac{I}{{M{{B}_{H}}}}}}
(d) T=2\pi \sqrt{{\frac{{{{B}_{H}}}}{{MI}}}}
Ans (a)
3.
In sum and difference method in vibration magnetometer, the time period is more if
(a) Similar poles of both magnets are on same sides
(b) Opposite poles of both magnets are on same sides
(c) Both magnets are perpendicular to each other
(d) Nothing can be said
Ans (b)
4.
Vibration magnetometer before use, should be set
(a) In magnetic meridian
(b) In geographical meridian
(c) Perpendicular to magnetic meridian
(d) In any position
Ans (a)
5.
Magnets A and B are geometrically similar but the magnetic moment of A is twice that of B. If T1 and T2 be the time periods of the oscillation when their like poles and unlike poles are kept together respectively, then \frac{{{{T}_{1}}}}{{{{T}_{2}}}}will be
(a) \frac{1}{3}
(b) \frac{1}{2}
(c) \frac{1}{{\sqrt{3}}}
(d) \sqrt{3}
Ans (c)
6.
Vibration magnetometer works on the principle of
(a) Torque acting on the bar magnet
(b) Force acting on the bar magnet
(c) Both the force and the torque acting on the bar magnet
(d) None of these
Ans (a)
7.
Tangent galvanometer is used to measure
(a) Steady currents
(b) Current impulses
(c) Magnetic moments of bar magnets
(d) Earth’s magnetic field
Ans (a)
8.
The sensitivity of a tangent galvanometer is increased if
(a) Number of turn decreases
(b) Number of turn increases
(c) Field increases
(d) None of the above
Ans (b)
9.
The period of oscillations of a magnetic needle in a magnetic field is 1.0 sec. If the length of the needle is halved by cutting it, the time period will be
(a) 1.0 sec
(b) 0.5 sec
(c) 0.25 sec
(d) 2.0 sec
Ans (b)
10.
The time period of oscillation of a bar magnet suspended horizontally along the magnetic meridian is T0. If this magnet is replaced by another magnet of the same size and pole strength but with double the mass, the new time period will be
(a) \frac{{{{T}_{0}}}}{2}
(b) \frac{{{{T}_{0}}}}{{\sqrt{2}}}
(c) \sqrt{2}{{T}_{0}}
(d) 2{{T}_{0}}
Ans (c)
11.
Which of the following statement is not the true
(a) While taking reading of tangent galvanometer, the plane of the coil must be set at right angles to the earth’s magnetic meridian
(b) A short magnet is used in a tangent galvanometer since a long magnet would be heavy and may not easily move
(c) Measurements with the tangent galvanometer will be more accurate when the deflection is around 45o
(d) A tangent galvanometer can not be used in the polar region
Ans (a)
12.
A magnet oscillating in a horizontal plane has a time period of 2 second at a place where the angle of dip is 30o and 3 seconds at another place where the angle of dip is 60o. The ratio of resultant magnetic fields at the two places is
(a) \frac{{4\sqrt{3}}}{7}
(b) \frac{4}{{9\sqrt{3}}}
(c) \frac{9}{{4\sqrt{3}}}
(d) \frac{9}{{\sqrt{3}}}
Ans (c)
Subjective Assignment
Q.1
How many neutral points on a horizontal board are there when a magnet is held vertically on the board?
Q.2
At a neutral point, does a compass needle point along N-S direction?
Q.3
Explain what is meant by neutral points? How will you calculate magnetic moment of a bar magnet by locating the neutral points?