The frequency of oscillations of a mass m connected horizontally by a spring of spring constant k is 4 HZ. When the spring is replaced by two identical spring as shown in figure. Then the effective frequency is

The effective spring constant of two spring system as shown in figure will be

A straight rod of light L and mass m is pivoted freely from a point of the roof. Its lower end is connected to an ideal spring of spring constant K. The other end of the spring is connected to the wall as shown in the figure. Find the frequency of small oscillation of the system.

A block of mass m is connected to another .block of mass M by a massless spring of spring constant k. A constant force f starts action as shown in figure, then:

Two identical springs of spring constant k are attached to a block of mass m and to fixed supports as shown in the figure. The time period of oscillation is

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

The frequency of oscillation of amass m suspended by a spring is v_(1) . If length of spring is cut to one third then the same mass oscillations with frequency v_(2) . Then

A body of mass 20 g connected to a spring of spring constant k, executes simple harmonic motion with a frequency of (5//pi) Hz. The value of spring constant is

Four spring connect with mass as shown in figure. Find frequency of S.H.M.

Four spring connect with mass as shown in figure. Find frequency of S.H.M.

The frequency of oscillations of a mass m suspended by spring of v_(1) . If the length of the spring is cut to one-half, the same mass oscillates with frequency v_(2) . Determine the value of v_(2)//v_(1)