11/1 0, w TK(0) = 83 Ta(t) J= 1 kg-m² TB (W) = 2|w|w B = 2 N-m's Figure P9.18 *9.18. The disk shown in Figure P9.18 is s

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answerhappygod
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11/1 0, w TK(0) = 83 Ta(t) J= 1 kg-m² TB (W) = 2|w|w B = 2 N-m's Figure P9.18 *9.18. The disk shown in Figure P9.18 is s

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11 1 0 W Tk 0 83 Ta T J 1 Kg M Tb W 2 W W B 2 N M S Figure P9 18 9 18 The Disk Shown In Figure P9 18 Is S 1
11 1 0 W Tk 0 83 Ta T J 1 Kg M Tb W 2 W W B 2 N M S Figure P9 18 9 18 The Disk Shown In Figure P9 18 Is S 1 (46.19 KiB) Viewed 28 times
11/1 0, w TK(0) = 83 Ta(t) J= 1 kg-m² TB (W) = 2|w|w B = 2 N-m's Figure P9.18 *9.18. The disk shown in Figure P9.18 is supported by a nonlinear torsional spring and is subject to both linear and nonlinear frictional torques. The applied torque is Ta(t) = 8+fa(t). a. Find the operating point 0. b. Derive the linearized input-output equation in terms of (t) = 0-0.
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