The damped harmonic oscillator system satisfies the equation mx + rx+ sx = mx + rx + = 0. note: pay attention to the x The displacement experienced by mass m can be expressed by x = Ae^-rt/2m cos(w't + Ø ). At t = 0, the mass is at x = x0 velocity x (with one point) = v0. On this %3D system it is known that w3 – w'² = 10-°wž. a. If damping is removed, the mass will oscillate in simple harmonic motion. Determine A and Ø in the parameters xo, vo and wo (the natural frequency of the oscillator). b. For this damped harmonic oscillator, determine A and Ø in the parameters xo, vo and w'. c. Calculate the logarithmic reduction 9/11 and quality factor Q. d. If w, = 10^6 rad/s and m = 10^-10kg, calculate the spring constant s and = coefficient r.

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The damped harmonic oscillator system satisfies the equation mx + rx+ sx = 0. mž +rx + note: pay attention to the x The displacement experienced by mass m can be expressed by x = Ae^-rt/2m cos(w't + Ø ). At t = 0, the mass is at x = x0 velocity x (with one point) = v0. On this system it is known that wi – w² = 10-6wž. a. If damping is removed, the mass will ocillate in simple harmonic motion. Determine A and Ø in the parameters xo, vo and wo (the natural frequency of the oscillator). b. For this damped harmonic oscillator, determine A and Ø in the parameters xo, vo and w'. c. Calculate the logarithmic reduction 9/11 and quality factor Q. d. If w, = 10^6 rad/s and m = 10^-10kg, calculate the spring constant s and = coefficient r.