A vehicle is moving on a circular path of radius R with constant speed `sqrt(gR)`. A simple pendulum of length l hangs from the ceilling of the vehicle. The time period of oscillations of the pendulum is

A trolley moves in horizontal direction with an acceleration a. A simple pendulum of length l is suspended from the roof of the trolley. The time period of the pendulum will be

A train is travelling at a constant speed u around a circular track of radius R. A simple pendulum of length L and mass m is suspended from the ceiling of the compartment of the train. IF the tension in the string of the pendulum is T, then find the time period of oscillation.

Aa simple pendulum is suspended from the ceiling of a vehicle which moves down an inclined plane o inclination Theta . The period of oscilation of the pendulum is

If a simple pendulum oscillates in water instead of air then the time period will -

A simple pendulum takes 32 s to complete 20 oscillations. What is the time period of the pendulum?

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

If a simple pendulum is suspended in a lift and lift is moving downwards an acceleration, time period of simple pendulum

The periodic time of a simple pendulum is 6.28 sec and the amplitude of oscillation is 3 cm. The maximum acceleration of the pendulum is

A simple pendulum is suspended from the roof of a vehicle which on an inclined plane of inclination theta . The period of the pendulum when the vehicle is at rest is T. What will be the time period of oscillation of a pendulum ?