A man measures time period of a pendulum (T) in stationary lift. If the lift moves upward with acceleration `(g)/(4)`, then new time period will be

The time period of a simple pendulum inside a stationary lift is T. If it starts descending with acceleration g/5. the new period of the simple pendulum will be

A simple · pendulum of length L is hanging from a rigid support on the ceiling of a stationary train. If the train moves forward with an acceleration a, then the time period of the pendulwn will be

If the lift moves up and comes down with uniform speed, then the time period of pendulum in the lift

Time period of pendulum is 6.28 s and amplitude of oscillation is 3 cm. Maximum acceleration of pendulum is

If the time period of a simple pendulum is T = 2pi sqrt(l//g) , then the fractional error in acceleration due to gravity is

A simple pendulum of length 1 m is freely suspended from the ceiling of an elevator. The time period of small oscillations as the elevator moves up with an acceleration of 2m//s^2 is (use g=10 m//s^2 )

If the length of a simple pendulum is equal to the radius of the earth, its time period will be

Time period of second pendulum on a planet, whose mass and diameter are twice that of earth, is

A simple pendulum has a time period T. If the support and the pendulum fall freely, the time period will be

If the length of simple pendulum is increased by 300%, then the time period will be increased by