A simple pendulum of mass m and length l stands in equilibrium in vertical position .The maximum horizontal velocity that should be given to the bob at the bottom so that it completes on revolution is

A body of mass m is suspended from a string of length l. What is minimum horizontal velocity that should be given to the body in its highest position so that it may complete one full revolution in the vertical plane with the point of suspension as the centre of the circle.

The bob of a simple pendulum of mass m and total energy E will have maximum linear momentum equal to

A simple pendulum of length l has a maximum angular displacement theta . The maximum kinetic energy of the bob of mass m will be

A body of mass m tied to a string of length r is at its lowest position. What should be the minimum speed given to it so as just to complete one revolution ?

A simple pendulum of length 98cm has amplitude of 2sqrt10 cm. Taking g=9.8m//s^2 , its maximum velocity will be

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 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 is length 1 m, the bob , performs circular motion in horizontal plane. If itsstring making an angle 60^@ with the vertical, then the period of rotation of the bob will be

A simple pendulum is of length /. It is displaced so that its length becomes horizontal and then released, then its velocity at bottom will be:

A simple pendulam of length L carriers a bob of mass m. When the bob is at its lowest position, it is given the minimum horizontal speed necessary for it to move in a vertical circle about the point of suspension. When the string is horizontal the net force on the bob is