If the same weight is suspended from three springs having length in the ratio 1 : 3 : 5 , the period of oscillations shall be the ratio of

The ratio of Young's modulus of two springs of same area of cross section and same length is 5 : 4 Equal masses are suspended from these springs. On stretching and then releasing, the springs start oscillating. Calculate the ratio of time period of oscillation.

When a mass of 1 kg is suspended from a spring, it is stretched by 0.4m. A mass of 0.25 kg is suspended from the spring and the spring is allowed to oscillate. If g=10 m//s^(2) , then its period of oscillation will be

A mass is suspended separately by two springs of spring constants k_(1) and k_(2) in successive order. The time periods of oscillations in the two cases are T_(1) and T_(2) respectively. If the same mass be suspended by connecting the two springs in parallel, (as shown in figure) then the time period of oscillations is T. The correct relations is

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.

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

The young modulii of two springs of equal length and equal cross sectional areas are in the ratio 2:3 both the springs are suspended and loaded with the same mass . When springs are stretched and released , the time period of oscillation of the two springs is in the ratio of

Periodic time of oscillation T_1 is obtained when a mass is suspended from a spring 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 spring then calculate the time period.

The period of oscillation of a mass M suspended from a spring of spring constant K is T. the time period of oscillation of combined blocks is

When a body is suspended from two light springs separately, the periods of vertical oscillations are T_1 and T_2 . When the same body is suspended from the two spring connected in series, the period will be

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