A particle at the end of a spring executes SHM with a period `t_(1)`While the corresponding period for another spring is If the period of oscillation with the two springs in series is T, then :

A body at the end of a spring executes SHM with a period t_(1), while the corresponding period for another spring is t_(2), If the period of oscillation with the two spring in series is T, then

A body at the end of a spring executes SHM with a period t_(1), while the corresponding period for another spring is t_(2), If the period of oscillation with the two spring in series is T, then

A mass is suspended at the end of a spring and performs SHM with a time period 3 seconds, while the time period f same mass wih other spring is 4 second. If that mass is connected with the combination of the two springs connected in series then time period of oscillator is

The time period of oscillations of a block attached to a spring is t_(1) . When the spring is replaced by another spring, the time period of the block is t_(2) . If both the springs are connected in series and the block is made to oscillate using the combination, then the time period of the block is

Time period of a given spring-mass system is

When a boy is playing on a swing in the sitting position , the time period of oscillations of the swing is T. If the boy stands up , the time period of oscillation of the spring will be

In the adjacent figure, if the incline plane is smooth and the springs are identical then the period of oscillation of this body is

On a smooth inclined plane, a body of mass M is attached between two springs. The other ends of the springs are fixed to firm supports. If each spring has force constant K , the period of oscillation of the body (assuming the springs as massless) is

A particle executing SHM with time period T and amplitude A. The mean velocity of the particle averaged over quarter oscillation, is

If the period of oscillation of mass M suspended from a spring is one second, then the period of 9M will be