Spring mass system is shown in figure. find the time period of vertical oscillations. The system is in vertical plane.

A uniform rod of mass m and length l is suspended through a light wire of length l and torsional constant k as shown in figure. Find the time perid iof the system makes a. small oscillations in the vertical plane about the suspension point and b. angular oscillations in the horizontal plane about the centre of the rod.

Find the period of oscillation of the system shown in figure.

A system is shown in the figure. The force The time period for small oscillations of the two blocks will be

Three spring mass systems are shown in figure. Assuming gravity free spece, find the time period of oscillations in each case. What should be the answer if space is not gravity free ?

The time period of oscillation of the block as shown in figure is

Find the period of a vertical spring - block system by both methods.

In the following arrangements, bock is slightly displaced vertically down from its equilibrium position and released. Find time period of vertical oscillations. The pulley is light.

In the situation as shown in figure time period of small vertical oscillation of block will be - (String, springs and pulley are ideal)

Find the elastic potential energy stored in each spring shown in figure, when the block is in equilibrium. Also find the time period of vertical oscillation of the block.

figure (a) and (b) represent spring- block system. If m is displacement slightly , find the time period of ascillation of the system.