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

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 mass 'm' , swings with maximum angular displacement of 60^(@) . When its angular displacement is 30^(@) ,the tension in the string 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 length l and bob of mass m is displaced from its equilibrium position O to a position P so that hight of P above O is h . If is then released. What is the tension in the string when the bob passes through the through the equilibrium position O ? Neglect friction. v is the velocity of the bob at O

A pendulum has maximum kinetic energy K_1 If its length is doubled keeping amplitude same then maximum kinetic energy becomes K_2 .Then relation between K_1 and K_2 is

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

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

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 simple pendulum is oscillating without damiping, When the displacement of the bob is less than maximum, its acceleration vector veca is correctly show in:

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: