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 simple pendulum of length l has maximum angular displacement theta . Then maximum kinetic energy of a bob of mass m is

The bob of a simple pendulum of length L is released at time t = 0 from a position of small angular displacement theta _ 0 . Its linear displacement at time t is given by :

A simple pendulum of mass 'm' , swings with maximum angular displacement of 60^(@) . When its angular displacement is 30^(@) ,the tension in the string is

Assertion: The motion of a simple pendulum is simple harmoni for all angular displacement. Reason: Motion of simple pendulum is independent of the angular displacement.

A small ball of mass m moving with speed v ( gt sqrt(2gL)) undergoes an elastic head on collision with a stationary bon of identical mass of a simple pendulum of length L. The maximum height h, from the equilibrium position, to which the bob rises after collision is

A simple pendulum of length l swimings from a small angle theta . Its swinging is constrained by the smooth inclined planes OP and PC. Assuming elastic collision of the bob with the plane PC, find angular amplitude for the motion of the bob in the left hand side of its mean possition. .

A pendulum is executing simple harmonic motion and its maximum kinetic energy is K_(1) . If the length of the pendulum is doubled and it perfoms simple harmonuc motion with the same amplitude as in the first case, its maximum kinetic energy is K_(2) Then:

A simple pendulum is oscillating with angular displacement 90^(@) For what angle with vertical the acceleration of bob direction horizontal?

A simple pendulum of length 1 oscillates aboμt the mean position as shown in the figure. If the total energy of the pendulum is E, the velocity of the pendulum bob of mass m at point P is: