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.

Figure shows a system consisting of a massless pulley, a spring of force constant k and a block of mass m. If the block is slightly displaced vertically down from is equilibrium position and then released, the period of its vertical oscillation is

Figure shows a system consisting of a massless pulley, a spring of force constant k and a block of mass m. If the block is slightly displaced vertically down from is equilibrium position and then released, the period of its vertical oscillation is

Figure shows a system consisting of a massless pulley, a spring of force constant k and a block of mass m. If the block is slightly displaced vertically down from is equilibrium position and then released, the period of its vertical oscillation is

Figure shows a system consisting of a massless pulley, a spring of force constant k and ablock of mass m. If the block is slightly displaced vertically down from its equillibrium position and then released, find the period of its vertical oscillation in cases (a) & (b).

Figure shows a system consisting of a massles pulley, a spring of force constant k and a block of mass m . If the block is sligthtly displaced vertically down from its equilibrium and released, find the period of its vertical oscillation in cases (a) and (b).

Figure shows a system consisting of a massles pulley, a spring of force constant k and a block of mass m . If the block is sligthtly displaced vertically down from its equilibrium and released, find the period of its vertical oscillation in cases (a) and (b).

A system shown in the figure consists of a massless pulley, a spring of force constant k displaced vertically downwards from its equilibrium position and released, then the Period of vertical oscillations is

A system shown in the figure consists of a massless pulley, a spring of force constant k displaced vertically downwards from its equilibrium position and released, then the Period of vertical oscillations is

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