91Ó°ÊÓ

Using the MATLAB Program2 \(m,\) plot the free-vibration response of a viscously damped system with \(m=4 \mathrm{~kg}, k=2500 \mathrm{~N} / \mathrm{m}, x_{0}=100 \mathrm{~mm}, \dot{x}_{0}=-10 \mathrm{~m} / \mathrm{s}, \Delta t=0.01 \mathrm{~s}, n=50\) for the following values of the damping constant: a. \(c=0\) b. \(c=100 \mathrm{~N}-\mathrm{s} / \mathrm{m}\) c. \(c=200 \mathrm{~N}-\mathrm{s} / \mathrm{m}\) d. \(c=400 \mathrm{~N}-\mathrm{s} / \mathrm{m}\)

Using the MATLAB Program2 \(m,\) plot the free-vibration response of a viscously damped system with \(m=4 \mathrm{~kg}, k=2500 \mathrm{~N} / \mathrm{m}, x_{0}=100 \mathrm{~mm}, \dot{x}_{0}=-10 \mathrm{~m} / \mathrm{s}, \Delta t=0.01 \mathrm{~s}, n=50\) for the following values of the damping constant: a. \(c=0\) b. \(c=100 \mathrm{~N}-\mathrm{s} / \mathrm{m}\) c. \(c=200 \mathrm{~N}-\mathrm{s} / \mathrm{m}\) d. \(c=400 \mathrm{~N}-\mathrm{s} / \mathrm{m}\)

Using the MATLAB Program2 \(m,\) plot the free-vibration response of a viscously damped system with \(m=4 \mathrm{~kg}, k=2500 \mathrm{~N} / \mathrm{m}, x_{0}=100 \mathrm{~mm}, \dot{x}_{0}=-10 \mathrm{~m} / \mathrm{s}, \Delta t=0.01 \mathrm{~s}, n=50\) for the following values of the damping constant: a. \(c=0\) b. \(c=100 \mathrm{~N}-\mathrm{s} / \mathrm{m}\) c. \(c=200 \mathrm{~N}-\mathrm{s} / \mathrm{m}\) d. \(c=400 \mathrm{~N}-\mathrm{s} / \mathrm{m}\)

Using the MATLAB Program2 \(m,\) plot the free-vibration response of a viscously damped system with \(m=4 \mathrm{~kg}, k=2500 \mathrm{~N} / \mathrm{m}, x_{0}=100 \mathrm{~mm}, \dot{x}_{0}=-10 \mathrm{~m} / \mathrm{s}, \Delta t=0.01 \mathrm{~s}, n=50\) for the following values of the damping constant: a. \(c=0\) b. \(c=100 \mathrm{~N}-\mathrm{s} / \mathrm{m}\) c. \(c=200 \mathrm{~N}-\mathrm{s} / \mathrm{m}\) d. \(c=400 \mathrm{~N}-\mathrm{s} / \mathrm{m}\)