A spring has a certain mass suspended from it and its period for vertical oscillation is T. The spring is now cut into two equal halves and the same mass is suspended from one of the halves. The period of vertical oscillation is now

A rectangular magnet suspended freely has a period of oscillation equal to T. Now it is broken into two equal halves each having half of the original length and one piece is made to oscillate freely. Its period of oscillation is T.The ratio of

The time period of vertical oscillations of a light spring with a load of mass M is T. If another load of mass m is attaches to the load M, the time period of oscillation is doubled. The value of m is

If the period of oscillation of mass M suspended from a spring is one second, then the period of 4M will be

The vertical extension in a light spring by a weight of 1 kg suspended from the wire is 9.8 cm . The period of oscillation

If the period of oscillation of mass m suspended from a spring is 2 s, then the period of mass 4 m will be

The period of oscillation of a mass M, hanging from a spring of force constant k is T. When additional mass m is attached to the spring, the period of oscillation becomes 5T/4. m/M =

Two identical springs of constant k are connected , first in series and then in parallel. A matal block of mass m is suspended from their combination. The ratio of their frequencies of vertical oscillations will be in a ratio

A bob is suspended from an ideal string of length l. Now it is pulled to a side till the string makes an angle 60^@ to the vertical and whirled along a horizontal circle. Then its period of revolution is

A rod of mass M and length l is suspended freely from its end and it can oscillate in the vertical plane about the point of suspension. It is pulled to one side and then released. It passes through the equilibrium position with angular speed omega . What is the kinetic energy while passing through the mean position?

A mass is suspended from a spring having spring constant k is displaced veritcally and relased. It oscillates with period T the weight of the mass suspended is (g= gravitatioanal acceleration)