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

In previous problem, if the body is suspended from the two springs connected in parallel, the time period will be

If the period of oscillation of mass M suspended from a spring is one second, then the period of 4M will be

When a mass M is suspended from a spring, its period of oscillation is 2 second. If a mass 4 M is suspended from the same spring, then its period of oscillation will be

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.

A spring has a certain mass suspended from it and its period for vertical oscillation is T. The spring is now cut into two equal halves and the same mass is suspended from one of the halves. The period of vertical oscillation is now

A spring has a certain mass suspended from it and its period for vertical oscillations is T_(1) . The spring is now cut into two equal halves and the same mass is suspended from one of the half. The period of vertical oscillation is now T_(2) . The ratio of T_(2)//T_(1) is

A mass m is suspended from the two coupled springs connected in series. The force constant for spring are k_(1) and k_(2) . The time period of the suspended mass will be:

A mass m is suspended from the two coupled springs connected in series. The force constant for springs are k_(1) "and" k_(2). The time period of the suspended mass 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.