A nail is fixed at a point `P` vertically below the point of suspension 'O' of simple pendulum of length `1 m`. The bob is released when the string of pendulum makes an angle `30^@` with horiozontal. The bob reaches lowest point and then describes vertical circle whose centre coincides with `P` . The least distance of `P` from `O` is

The distance between the point of suspension of the pendulum and the bottom of the bob is the length of a simple pendulum.

The distance between the point of suspension of the pendulum and the bottom of the bob is the length of a simple pendulum

A simple pendulum of length I and mass (bob) m is suspended vertically. The string makes an angle theta with the vertical. The restoring force acting on the pendulum is

A simple pendulum of length l and mass (bob) m is suspended vertically. The string makes an angle theta with the vertical. The restoring force acting on the pendulum is

A nail is located at a certain distance vertically below the point of suspension of a simple pendulum. The pendulum bob is released from a position where the string makes an angle of 60^(@) with the vertical. Calculate the distance of nail from the point of suspension such that the bob will just perform revolutions with the nail as centre. Assume the length of the pendulum to be one meter.

A bob hangs from a rigid support by an inextensible string of length l. It is released from rest when string makes an agngle 60^(@) with vertical . The speed of the bob at the lowest position is

The bob A of a simple pendulum is released when the string makes an angle of 45^(@) with the vertical. It hits another bob B of the same meterial and same mass kept at rest on the table. If the collision is elastic, then

In a simple pendulum, the breaking strength of the string is double the weight of the bob. The bob is released from rest when the string is horizontal. The string breaks when it makes an angle theta with the vertical.