Find the period of vibrating particle (SHM), which has acceleration of`45cm s^(-2)`, when displacement from mean position is 5 cm.

Calculate the time period of a particle whose acceleration is 5 cm s^(-2) at a distance of 5 cm from the mean posiiton.

A particle executing SHM has an acceleration of 0.5cms^(-1) when its displacement is 2 cm. find the time period.

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

A particle is in SHM with time period 3 sec. Calculate the displacement of particle from mean position after t = 0.5 sec.

When the displacement of a particle in SHM from the mean position is 4 cm, the force acting on the particle is 6 N. Then the force acting on it when its displacement is 6 cm from the mean positio is

A particle executes SHM on a straight line path. The amplitude of oscillation is 3 cm. Magnitude of its acceleration is eqal to that of its velocity when its displacement from the mean position is 1 cm. Find the time period of S.H.M.

A particle executes SHM on a straight line path. The amplitude of oscialltion is 3 cm. Magnitude of its acceleration is eqal to that of its velocity when its displacement from the mean position is 1 cm. Find the time period of S.H.M. Hint : A= 3cm When x=1 cm , magnitude of velocity = magnitude of acceleration i.e., omega(A^(2) - x^(2))((1)/(2)) = omega^(2) x Find omega T = ( 2pi)(omega)

The amplitude of oscillation of particles in SHM is sqrt(3)cm . The displacement from mean position at which its potential and kinetic energies are in the ratio 1:2 is