A simple pendulum is suspended from the ceilling of a left. When the lift is at rest, its time period is `T`. With what accleration should lift be acclerated upwards in order to reduce its time period to `(T)/(2)`.

A simple pendulum is suspended from the ceiling of a lift . When the lift is at rest its time period is T. With what acceleration should the lift be accelerated upwards in order to reduce its period to T//2 ? (g is acceleration due to gravity ).

A simple pendulum is suspended from the roof of a lift. What will be its time period when the lift moves downwards with an acceleration a

A simple pendulum attached to ceiling of lift has time period T when lift is at rest. Find its time period of lift it starts accelerating upwards with acceleration g/2?

A simple pendulum suspended from the ceiling of a trans has a time period T when the train is at rest. If the train is accelerating uniformly at a then its time period

There is a simple pendulum hanging from the ceiling of a lift. When the lift is stand still, the time period of the pendulum is T . If the resultant acceleration becomes g//4 ,then the new time period of the pendulum is

A seconds pendulum is suspended from the roof of a lift. If the lift is moving up with an acceleration 9.8 m/s2 its time period is

A simple pendulum, suspended from the coiling of a lift, has a period of oscillation T, when the lift is at rest. If the lift starts moving upwards with an acceleration a =3g, then the new period will be

A seconds pendulum is suspended form the roof of a lift. If the lift is moving up with an acceleration 9.8 m//s^(2) , its time period is

A simple pendulum suspended from the celling of a stationary lift has period T_(0) . When the lift descends at steady speed, the period is T_(1) , and when it descends with constant downward acceleration, the period is T_(2) which one of the following is true?