The period of the free oscillations of the system shown here if mass `m_(1)` is pulled down a little and force constant of the spring is k and masses of the fixed pulleys are negligible, is

What would be the period of the free oscillations of the system shown here if mass M_(1) is pulled down a little force constant of the spring is k , mass of fixed pulley is negligible and movable pulley is smooth

Find the period of small vertical oscillations of a body with mass m in the system illustrated in figure. The stiffness values of the springs are x_(1) and x_(2) , their masses are negligible.

Determine the period of small longitudinal oscillations of a body with mass m in the system shown in figure. The stiffness values of the springs are x_(1) and x_(2) . The friction and the masses of the springs are negligible.

Find the time period of oscillation of block of mass m. Spring, and pulley are ideal. Spring constant is k.

A body of mass m falls from a height h onto the pan of a spring balance. The masses of the pan and spring are negligible. The force constant of the spring is k. The body sticks to the pan and oscillates simple harmonically. The amplitude of oscillation is

A pulley fixed to the ceiling carries a thread with bodies of masses m_(1) and m_(2) attached at its ends. The masses of the pulley and thread are negligible, friction is absent. Find the acceleration of the centre of mass (a_("cm")) of this system.

Calculate the period of oscillations of block of mass m attached with a set of springs as shown

As shown in the figure a block of mass m is hung from the ceiling by the system of springs consisting of two layers. The force constant of each of the springs is k. The frequency of the vertical oscillations of the block is

The period of oscillation of a mass M suspended from a spring of spring constant K is T. the time period of oscillation of combined blocks is