Two simple pendulum first of bob mass `M_(1)` and length `L_(1)` second of bob mass `M_(2)` and length `L_(2) M_(1) = M_(2)` and `L_(1)` = 2L_(2)`. if the vibrational energy of both is same which is correct?

Two simple pendulum first of bob mass M_(1) and length L_(1) second of bob mass M_(2) and length L_(2) M_(1) = M_(2) and L_(1) = 2L_(2) . if these vibrational energy of both is same which is correct?

If L_(1) = (3.03 +- 0.02)m and L_(2) = (2.01 +- 0.02)m then L_(1) + 2L_(2) in (in m )

The length of wire, when M_(1) is hung from it, is l_(1) and is l_(2) with both M_(1) and M_(2) hanging. The natural length of wire is :-

If L_(1) = (2.02 +- 0.01)m and L_(2) = (1.02 +- 0.01)m then L_(1) + 2L_(2) is (in m)

A compound pendulum consists of a rigid light rod having two spherical bobs of masses m_(1) and m_(2) at distance l_(1) and l_(2) from the centre of suspension. Find the time period of oscillations of the pendulum

A simple pendulum of length 1 m with a bob of mass m swings with an angular amplitude 30^(@) . Then (g= 9.8m//s^(2)

A pendulum consists of a wooden bob of mass m and of length L . A bullet of mass m_(1) is fired towards the pendulum with a speed v_(1) . The bullet emerges out of the bob with a speed v_(1)//3 and the just completes motion along a vertical circle. Then v_(1) is:

If the system is suspended by the mass m the length of the spring is l_(1) . If it is inverted and hung by mass M, the length of the spring is l_(2) . Find the natural length of the spring.