Passage V) In SHM displacement, velocity and acceleration all oscillate simple harmonically with same angular frequency `omega`. Phase difference between any two is `pi/2` except that between displacement and acceleration which is `pi`.
v-t graph of a particle is SHM is as shown in figure Choose the wrong option.

Passage V) In SHM displacement, velocity and acceleration all oscillate simple harmonically with same angular frequency omega . Phase difference between any two is pi/2 except that between displacement and acceleration which is pi . Displacement -time equation of a particle is given as x=Asin(omegat+pi/6)-A cos(omegat+pi/6) , then:

The phase difference between displacement and acceleration of particle in a simple harmonic motion is

Acceleration displacement (a-x) graph of a particle executing S.H.M. is shown in the figure. The frequency of oscillation is (tan theta =8)

If angular frequency of simple harmonic oscillator is 2 rad/s, then the graph between velocity and displacement is

The acceleration-displacement graph of a particle executing simple harmonic motion is shown in the figure. The frequency of oscillation is

If y, v and a represent displacement velocity and acceleration at any instant for a particle executing SHM, which of the following statements are true?

The acceleration-displacement (a-X) graph of a particle executing simple harmonic motion is shown in the figure. Find the frequency of oscillation.

For a particle executing SHM, x = displacement from mean position, v = velocity and a = acceleration at any instant, then

A particle executing SHM. The phase difference between acceleration and displacement is

If x, v and a denote the displacement, the velocity and the acceleration of a particle executing simple harmonic motion of time period T, then, which of the following does not change with time?