The P.E. of a particle executing SHM at a distance x from its equilibrium position is

A particle executes S.H.M with amplitude of 10 cm and period of 10 s. Find the acceleration of the particle at a distance 5 cm from the equilibrium position.

A particle executes S.H.M with amplitude of 10 cm and period of 10 s. Find the velocity of the particle at a distance 5 cm from the equilibrium position.

The ration of kinetic energy to the potential energy of a particle executing SHM at a distance equal to half its amplitude , the distance being measured from its equilibrium position is

The acceleration of a particle executing S.H.M, when it is at its mean position is

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

When a particle executing a linear S.H.M. moves from its extreme position to the mean position, its

The potential energy of a particle executing SHM in its rest position is 15 J . The average kinetic energy of the particle during one oscillation is 5 J . The total energy of the particle is

The restoring force and P .E. of a particle executing S,H.M are F and V when its displacement is· x. The relation between F, V and xis

A particle is executing a linear S.H.M. Its velocity at a distance x from the mean position is given by v^2=144-9x^2 . The maximum velocity of the particle is

Assertion: Total energy of a particle executing S.H.M. · is maximum at mean position . Reason: The velocity of the particle executing S.H.M. is maximum at mean position.