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Derive the equations of motion for the double pendulum shown in the figure. Pendulum angular assume that its displacement is sufficiently small and that the spring always remains parallel to the horizontal axis. Do the Laplace transform of the equations.
Question: Derive the equations of motion of the trailer compound pendulum system shown in the figure using Lagrange's method. Compound pendulum, mass m, length Trailer, mass M Min)
Question: Derive the equations of motion of the trailer compound pendulum system shown in the figure using Lagrange's method. Compound pendulum, mass m, length Trailer, mass M Min)
(10pts) Lagrange Equations of Motion: The pendulum shown is mounted to a sliding collar that has neglible friction in contact. A spring is attached to the sliding collar. For the figure shown, develop the equations of motion using Lagrange equations a) Determine expressions for the Lagrangian (L-TV ), gravityacts downward. Note that there are 4. TWO coordinates here. (5 pts) b) Develop the two equations of motion. (5 pts)
(10pts) Lagrange Equations of Motion: The pendulum shown is mounted to...