The equation of motion of a particle in `SHM` is `a +16 pi^(2)x = 0`. Here 'a' is linear acceleration of the particle at displacement `x (a,x` are in `SI)`. Its time period is

The equation of motion of a particle in SHM is a +4x = 0 . Here 'a' is linear acceleration of the particle at displacement 'x' in metre. Its time period is

The equation of motion of a particle executing S.H.M. is a = - bx , where a is the acceleration of the particle, x is the displacement from the mean position and b is a constant. What is the time period of the particle ?

The equation of motion of a particle executing SHM is ((d^2 x)/(dt^2))+kx=0 . The time period of the particle will be :

The displacement of a particle in an SHM in one time period is

The equation of S.H.M. of a particle is a+4pi^(2)x=0 , where a is instantaneous linear acceleration at displacement x. Then the frequency of motion is

The equation of motion of a particle executing simple harmonic motion is a+16pi^(2)x = 0 In this equation, a is the linear acceleration in m//s^(2) of the particle at a displacement x in meter. The time period in simple harmonic motion is

a - x equation of a particle in SHM is a + 4x = 0 Here, a is in cm//s^(2) and x in cm.Find time period in second.

The differential equation of a particle performing a S.H.M. is (d^(2)x)/(dt^(2))+ 64x=0 . The period of oscillation of the particle is

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

The displacement equation of a particle performing S.H.M. is x = 10 sin (2pit+(pi)/(6)) m. Then the initial displacement of a particle is