Statement-1 : In S.H.M., the motion is ‘to and fro’ and
periodic.
Statement-2 : Velocity of the particle
(v)`=omegasqrt(k^(2)-x^(2))`(where x is the displacement and k is amplitude)

A particle of 0.8 kg is executing S.H.M., Its amplitude is 1.0 metre and time period is 11/ 7 seconds. The velocity of the particle at the instant when its displacement is 0.6 metre will be :

particle is executing S.H.M. If its amplitude is 2 m and periodic time 2 seconds , then the maximum velocity of the particle will be

A particle executing simple harmonic motion with an amplitude 5 cm and a time period 0.2 s. the velocity and acceleration of the particle when the displacement is 5 cm is

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 particle executing SHM has amplitude of 1m and time period pi sec . Velocity of particle when displacement is 0.8m is

A particle executes SHM with a time period of 2 s and amplitude 5 cm. What will be the displacement and velocity of that particle at t = 1/3 ?

Velocity at mean position of a particle executing S.H.M. is v , they velocity of the particle at a distance equal to half of the amplitude

For motion of an object along the x-axis the velocity v dipends on the displacement x an v=3x^(2) , then what is the acceleration at x=2 m .

A particle executes simple harmonic motion represented by displacement function as x(t)=A sin(omegat+phi) If the position and velocity of the particle at t = 0 s are 2 cm and 2omega" cm s"^(-1) respectively, then its amplitude is xsqrt(2) cm where the value of x is _________.