1. Figure Q1 shows a guided mass m which is connected to a rigid wall by...
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1. Figure Q1 shows a guided mass m which is connected to a rigid wall by a spring of stiffness k and a viscous damper of rate C. A pendulum of mass m and length l is suspended from the guided mass. Without any external force applied to m, both centres of mass lie on the dashed equilibrium line shown. When an external force F is applied to m1, it displaces horizontally from the equilibrium line by x and the pendulum swings through an angle as shown. (a) In general, the displacement of m from the equilibrium line is given by - x + 1 sine (horizontally) and (1 cos 0) (vertically). Determine expressions for the system kinetic (T), dissipation (D) and potential (U) energies. Show your working in each case. (b) Use Lagrange's equations d dt = (377) - aD au + + = aqi Qwi to determine the two nonlinear equations of motion. (c) Assuming that the angle 0 is small, linearise the equations of motion from Part (b) to obtain mass, damping and stiffness matrices, together with the force vector corresponding with the displacement vector q = (x, 0), [7 marks] [12 marks] [6 marks] Equilibrium line Frictionless guide k x m1 F C1 m2 m2g Figure Q1. Pendulum suspended under a guided mass system 1. Figure Q1 shows a guided mass m which is connected to a rigid wall by a spring of stiffness k and a viscous damper of rate C. A pendulum of mass m and length l is suspended from the guided mass. Without any external force applied to m, both centres of mass lie on the dashed equilibrium line shown. When an external force F is applied to m1, it displaces horizontally from the equilibrium line by x and the pendulum swings through an angle as shown. (a) In general, the displacement of m from the equilibrium line is given by - x + 1 sine (horizontally) and (1 cos 0) (vertically). Determine expressions for the system kinetic (T), dissipation (D) and potential (U) energies. Show your working in each case. (b) Use Lagrange's equations d dt = (377) - aD au + + = aqi Qwi to determine the two nonlinear equations of motion. (c) Assuming that the angle 0 is small, linearise the equations of motion from Part (b) to obtain mass, damping and stiffness matrices, together with the force vector corresponding with the displacement vector q = (x, 0), [7 marks] [12 marks] [6 marks] Equilibrium line Frictionless guide k x m1 F C1 m2 m2g Figure Q1. Pendulum suspended under a guided mass system
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