A particle starts simple harmonic motion from the mean position. Its amplitude is a and total energy E . At one instant its kinetic energy is 3E/4 . Its displacement at that instant is

A particle performs linear S.H.M. starting from the mean position. Its amplitude is A and time period is T. At the instance when its speed is half the maximum speed , its displacement x is

A particle starts performing simple harmonic motion. Its amplitude is A . At one time its speed is half that of the maximum speed. At this moment the displacement is

A particle executes simple harmonic motion of amplitude A. (i) At what distance from the mean positio is its kinetic energy equal to its potential energy? (ii) At what points is its speed half the maximum speed?

A particle executes simple harmonic motion with an amplitude of 4 cm . At the mean position the velocity of the particle is 10 cm/ s . The distance of the particle from the mean position when its speed becomes 5 cm/s is

A particle executes simple harmonic motion with a frequency v. The frequency with which the kinetic energy oscillates is

A particle of mass m executing S.H.M. about its mean position. The total energy of the particle at given instant is

The total energy of the body excuting S.H.M. is E . Then the kinetic energy when the displacement is half of the amplitude, is

A body is executing simple harmonic motion. At a displacement x, its potential energy is E_1 and a displacement y, its potential energy is E_2 . The potential energy E at a displacement (x+y) is

The total energy of a particle executing simple harmonic motion is (x- displacement)

The velocity of a particle in simple harmonic motion at displacement y from mean position is