Part of a simple harmonic motion is graphed in the figure, where `y` is the displacement from the mean position. The correct equation describing this `S.H.M` is-

Part of SHM is graphed in the figure. Here, y is displacement from mean position. The correct equation describing the SHM is

In simple harmonic motion , the acceleration of the body is inversely proportional to its displacement from the mean position .

The total energy of a particle, executing simple harmonic motion is. where x is the displacement from the mean position, hence total energy is independent of x.

The acceleration of a simple harmonic oscillator is 1 m//s^(2) when its displacement from mean position is 0.5 m. Then its frequency of oscillation is

In SHM , acceleration versus displacement (from mean position) graph:

The energy of a particle executing simple harmonic motion is given by E=Ax^2+Bv^2 where x is the displacement from mean position x=0 and v is the velocity of the particle at x then choose the correct statement(s)

A particle is executing simple harmonic motion in a conservative force field. The total energy of simple harmonic motion is given by E=ax^(2)+bv^(2) where ‘x’ is the displacement from mean position x = 0 and v is the velocity of the particle at x then choose the INCORRECT statements.{Potential energy at mean position is assumed to be zero}

A body is vibrating in simple harmonic motion . If its acceleration in 12 cms^(-2) at a displacement 3 cm from the mean position, then time period is