Magnets `A` and `B` are geometrically similar but the magnetic moment of `A` is twice that of `B`. If `T_(1)` and `T_(2)` be the time periods of the oscillation when their like poles and unlike poles are kept togather respectively, then `T_(1)/T_(2)` will be

If T_(1) and T_(2) are the time-periods of oscillation of a simple pendulum on the surface of earth (of radius R) and at a depth d, the d is equal to

Two similar magnets of magnetic moments M_(1) and M_(2) are taken and vibrated in vibration magnetometer with their like pole together and unlike pole together . If ratio of (M_(1))/(M_(2)) = (5)/(3) , then ratio of the period is

Three arrangements of spring - mass system are shown in figures (A), (B) and ( C). If T_(1) , T_(2) and T_(3) represent the respective periods of oscillation, then correct relation is

The period of oscillations of a magnet is 2 sec. When it is remagnetised so that the pole strength is 4 times its period will be

A bar magnet is oscillating in the earth's magnetic field with a time period T . If the mass is quadrupled, then its time period will be:

Two bar magnets having same geometry with magnetic moments M and 2M, are firstly placed in such a way what their similar poles are same side then its time period of oscillation is T_1 . Now the polarity of one of the magnet is reversed then time period of oscillation will be:-

Two bar magnets of magnetic moments 12Am^(2) and 10Am^(2) are placed one over the other .First with their similar poles in contact after unlike poles in contact.The ratio of their resultant magnetic moments is