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 damped simple harmonic motion is 2m(d^(2)x)/(dt^(2))+2a_(0)(dx)/(dt)+kx=0 . Then the angualr frequency of oscillation is

The equation of a damped oscillator of mass 1kg is (d^(2)y)/(dt^(2)) = - 25 y + 6 (dy)/(dt) . Find its angular frequency.

The equation of simple harmonic motion of a source is (d^2x)/(dt^2)+px=0 , find the time period.

The equation of a simple harmonic motion of a particle is (d^(2)x)/(dt^(2)) + 0.2 (dx)/(dt) + 36x = 0 . Its time period is approximately

If the differential equation of a damped oscillator is (m d^(2)x)/(d t^(2)) + (bd x)/(d t) + k x = 0 then energy of damped oscillator vary with time .t. is E(t) =

The equation of motion of a particle executing SHM is 3(d^(2)x)/(dt^(2))=27x=0 , what will be the angular frequency of the SHM?

The differential equation for a freely vibrating particle is (d^2 x)/(dt^2)+ alpha x=0 . The angular frequency of particle will be

Write the equation of angular frequency for damped oscillation.