Two springs are made to oscillate simple harmonically due to the same mass individually. The time periods obtained are `T_1` and `T_2`. If both the springs are connected in series and hten made to oscillate by the same mass, the resulting time period will be

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

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

A body of mass m has time period T_1 with one spring and has time period T_2 with another spring. If both the springs are connected in parallel and same mass is used, then new time period T is given as

The time period of a mass suspended from a spring is T if the spring is cut in to equal part and the same mass is suspended from one of the pert then the time period will be

If T_(1) and T_(2) are the time of oscillations for two springs of constants k_(1) and k_(2) connected to the mass m individually then calculate the time period of oscillations when both the spring are connected to the same mass and subjected to oscillations.

The two spring-mass system, shown in the figure, oscillates with a period T. If only one spring is used, the time period will be

The two spring-mass system, shown in the figure, oscillates with a period T. If only one spring is used, the time period will be

A mass m performs oscillations of period T when hanged by spring of force constant K . If spring is cut in two parts and arranged in parallel and same mass is oscillated by them, then the new time period will be

A simple harmonic oscillator consists of a particle of mass m and an ideal spring with spring constant k. The particle oscillates with a time period T. The spring is cut into two equal parts. If one part oscillates with the same particle, the time period will be

A simple harmonic oscillator consist of a particle of mass m and an ideal spring with spring constant k. The particle oscillates with a time period T. The spring is cut into two equal parts. If one part oscillates with the same particle, the time period will be...........