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

Time period of a given spring-mass system is

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 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 freely suspended magnet is 4 seconds. If it is broken in length into two equal parts and one part is suspended in the same way, then its time period will be

Periodic time of oscillation T_(1) is obtained when a mass is suspended from a spring and if another spring is used with same mass then periodic time of oscillation is T_(2) . Now if this mass is suspended from series combination of above springs then calculated the time period.

The time period of a mass suspended from a spring is T. If the spring is cut into four equal parts and the same mass is suspended from one of the parts, then the new time period will be

A body of mass m is suspended from three springs as shown in figure. If mass m is displaced slightly then time period of oscillation is

A block of mass m hangs from three springs having same spring constant k. If the mass is slightly displaced downwards, the time period of oscillation will be

A spring elongated by length 'L' when a mass 'M' is suspended to it. Now a tiny mass 'm' is attached and then released, its time period of oscillation is -