A simple pendulum is oscillating in a vertical plane with a small amplitude. State whether the total energy at any point in its motion will be equal to that at an extreme point?

state whether True or False Pressure on any point of liquid is same.

A particle is projected from the ground with a kinetic energy E at an angle of 60^(@) with the horizontal. Its kinetic energy at the highest point of its motion will be

Two simple pendulums of length 0.24 m and 0.25 m respectively hang vertically, one in front of the other. If they are set in motion simultaneously, find the time taken for one to gain a complete oscillation on the other. g=9.81m*s^(-2)

The upper 3/4 th portion of a vertical pole subtends an angle theta such that tan theta=3/5 at a point in the horizontal plane through its foot and at a distance 40m from the foot. Find the possible height of the vertical pole.

A particle executives simple harmonic motion of amplitude A. The distance from the mean position where its kinetic energy is equal to its potential energy is

A particle executes simple harmonic motion along principle axis of a convex lens of focal length f with amplitude ‘a’. The centre point of the motion is at a distance ‘b’ from the lens. Find the amplitude of oscillation of the image.

A particle of mass 0.01 kg is executing simple harmonic motion along a straight line. Its time period is 2 s and amplitude is 0.1 m. Determine its kinetic energy (i) at a distance 0.02 m and (ii) at a distance 0.05 m from the position of equilibrium.