A simple pendulum hanging from the ceiling of a stationary lift has a time period T 1 . When the lift moves downward with constant velocity, the time period is T, then

A simple pendulum suspended from the ceiling of a stationary van, has time period T. If then van stats moving with a uniform velocity, the periodic of the pendulum will be………..

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?

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?

A simple pendulum, suspended from the ceiling of a stationary van, has time period T . If the van starts moving with a uniform velocity the period of the pendulum will be

A simple pendulum hangs from the ceiling of a stationary. Lift and executes S.H.M. wih a time period T. When the lift started moving upwards, the distance covered by it while moving upwards varies with time t as y = 6t^(2) where y is in metre and t in seconds. Calculate the new time period of the pendulum.

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 the ceiling of a stationary lift has a time period T. The distance y covered by the lift moving upwards varies with time t as y = t^(2) where y is in metres and t in seconds. If g = 10 m//s^(2) , the time period of pendulum will be

A simple pendulum attached to the ceiling of a stationary lift has a time period T. The distance y covered by the lift moving upwards varies with time t as y = t^(2) where y is in metres and t in seconds. If g = 10 m//s^(2) , the time period of pendulum will be