A mass is suspended from a spring have spring constant k is displaced veritcally and relased it oscillates with period T the weight of the mass suspended is (g= gravitatioanal acceleration)

A mass is suspended from a spring having spring constant k is displaced veritcally and relased. It oscillates with period T the weight of the mass suspended is (g= gravitatioanal acceleration)

A mass suspended from a spring of spring constant k is made to oscillate with a time period T. Now, the spring is cut into three equal parts and the mass is suspended from one of the parts. What will be the new time period of oscillations?

A flat spiral spring of force constant K is loaded with mass M and oscillates vertically with a time period T. Then the mass suspended to the free end 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.

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.

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.

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 flat spiral spring of force constant k is loaded with mass M and oscillate about vertical with a time period T. Then the mass suspended to the free end is

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 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