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

Acceleration of a particle, executing SHM, at it’s mean position is

The restoring force acting on a particle executing SHM is 10 N at a displacement of 2 cm from mean position. The restoring force at a displacement of 3 cm is

For a particle executing simple harmonic motion, the displacement from the mean position is given by y= a sin (wt ) , where a, w are constants. Find the velocity and acceleration of the particle at any instant t.

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

A particle executing SHM has a velocity of 2 ms^(-1) when its displacement from mean position is 1 cm and a velocity of 1 ms^(-1) when its displacement is 2 cm. Its amplitude of oscillationis

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

A particle is performing SHM. if its displacement from mean position is x , a corresponding reultent force on iy is F and acceleration is a, which of the following graph is correct?

The equation for the displacement of a particle executing SHM is y = 5 sin (2pit)cm . Find (i) velocity at 3cm from the mean position (ii) acceleration at 0.5s after having the mean position

A particle is executing S.H.M. from mean position at 5 cm distance, acceleration is 20 cm//sec^(2) then value of angular velocity will be