`S_(1) and S_(2)` are two identical springs. The oscillation frequency is f. If one springs is removed, frequency will be

In figure S_(1) and S_(1) are identical springs. The oscillation frequency of the mass m is f . if one spring is removed, the frequency will become

Two identical springs S_(1) and S_(2) are joined as shown in the figure. The oscillation frequency of the mass m is v. What will be the frequency of mass m, if one spring is removed ?

The frequency of oscillation of the spring shown in the figure will be

The frequency of oscillation of the springs shown in the figure will be

If a spring having frequency f is taken on moon (having) g'= g//6 it will have a frequency of

Assertion: A block of small m attached to a stiff spring will have large oscillation frequency. Reason: Stiff springs have high value of spring constant.

A block A of mass m is placed on a smooth horizontal platform P and between two elastic massless springs S_1 and S_2 fixed horizontally to two fixed vertical walls. The elastic constants of the two springs are equal to k and the equilibrium distance between the two springs both in relaxed states is d. The block is given a velocity v_0 initially towards one of the springs and it then oscillated between the springs. The time period T of oscillations and the minimum separation d_m of the spring will be

A block of mass m is connected between two springs (constants K_(1) and K_(2) ) as shown in the figure and is made to oscillate, the frequency of oscillation of the system shall be-