A pendulum of mass 1 kg and length  = 1m is released from rest at angle  = 60º. The power delivered by all the forces acting on the bob at angle  = 30º will be: (g = 10 m/s2)

A pendulum of length  = 1 m is released from 0 = 60º. The rate of change of speed of the bob at  = 30º is: (g = 10 m/s2)

A pendulum of length l=1m is released from theta_(0)=60^(@) . The rate of change of speed of the bob at theta=30^(@) is.

A pendulum bob of mass m and length L is released from angle theta with the vertical. Find (a) the speed of the bob at the bottom of the swing and (b) tension in the string at that time

A uniform rope of mass M=0.1kg and length L=10m hangs from the celling. [g=10m//s^(2)] :-

A particle of mass 1 kg is projected at an angle of 30^(@) with horizontal with velocity v = 40 m/s . The change in linear momentum of the particle after time t = 1 s will be (g = 10 m// s^(2) )

The bob of a pendulum of length 980 cm is released from rest with its string making an angle 60^(@) with the vertical. It collides with a ball of mass 20 gm resting on a smooth horizontal surface just at the position of rest of the pendulum. With what velocity will the bob move immediately after the collision? What will be the maximum angular displacement of the bob after them collision ? The mass of the bob is 10 gm. '