The equation of a damped simple harmonic motion is `m(d^2x)/(dt^2)+b(dx)/(dt)+kx=0`. Then the angular frequency of oscillation is

The equation of a simple harmonic motion is given by , x=8sin(8pit)+6cos(8pit) . The initial phase angle is

The differnetial equation of S.H.M is given by (d^2x)/(dt^2)+propx=0 . The frequency of motion is

The equation (d^2y)/(dt^2)+b(dy)/(dt)+omega^2y=0 represents the equation of motion for a

The phase of a particle executing simple harmonic motion is pi/2 when it has

A particle executing SHM has a maximum speed of 0.5ms^(-1) and maximum acceleration of 1.0ms^(-2) . The angular frequency of oscillation is

The differential equation m frac(d^2x)(dt^2)+b frac(dx)(dt) +k(x) = 0 represent

The maximum velocity and the maximum acceleration of a body moving in a simple harmonic oscillator are 2 m/s and 4 m//s^(2) . Then angular velocity will be

State the differential equation of angular simple harmonic motion.

The equation of linear simple harmonic motion is x = 8 cos (12pit) where x is in cm and t is in second. The initial phase angle is

Show that motion of a damped harmonic oscillator is S.H.M. Hence derive the formula for time period of damped oscillations.