Find the transfer function (X/F) for the mechanical system shown below
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Find the transfer function (X1/F) for the mechanical system shown below
5. Find the transfer function X (3) F(s) and X:(5) F(s) for the mechanical system below Kj = 4 N/m *(1) K2 = 5 N/m 00002 0000 = 3 N-s/m M =1 kg|fv2 = 3 N-s/m M2 = 2 kg Svz = 2 N-s/m E
Problem 2 (25 points) For the rotational mechanical system with gears shown below, find the transfer function G(s)-0s(s)/T(s). The gears have inertia and bearing friction as shown T(0) Ji. D N2 N3 2. D2 14. D
Fall 2017 Find the transfer function, G(s) X.(s)/F(s), for the translational mechanical network shown in Figure P1 1. X, t) 2 N 2Ka IN-5Im
Problem B-4-1 Find the transfer function X (s)/X/(s) of the mechanical system shown in Figure 4-50. The displacements x; and X, are measured from their respective equilibrium positions. Obtain the displacement xo(t) when the input x;(t) is a step displacement of magnitude X; occurring at t = 0. Assume that x.(0-) = 0. T Figure 4-50 Mechanical system.
Spring 2017 Name: 1. (a) Find the transfer function, Go)- v,(s),(s), for the network shown (b) Find the shown below. e ramp response for the given system. (t1 fer function, G(S)-x (G)/F(S) of the translational mechanical system shown below x(t) f, 3. For each of transfer functions shown below, find the oestions of the potes ans Plot them on the 5-plane, Rnd then write an expression for de geterst form of me response without solving for the inverse Laplace tranform....
2. For the system shown below find: a. The transfer function G(s) X(s)/F(s) b. Ç, con, %OS, Ts, and Tp. 33 N/ xuf fit) 15 N-s/m
The equations of motion for an undamped 2 DOF system are shown below. Find the transfer function X1/F2. You do not need to find the other three transfer functions. 5. 2 2+k3 )x2 = F2 dt- The equations of motion for an undamped 2 DOF system are shown below. Find the transfer function X1/F2. You do not need to find the other three transfer functions. 5. 2 2+k3 )x2 = F2 dt-
The equations of motion for an undamped 2 DOF system are shown below. Find the transfer function X1/F2. You do not need to find the other three transfer functions. 5. 2 2+k3 )x2 = F2 dt- The equations of motion for an undamped 2 DOF system are shown below. Find the transfer function X1/F2. You do not need to find the other three transfer functions. 5. 2 2+k3 )x2 = F2 dt-
Question 3 a) Develop the transfer function X,(s)/F(s) of the mechanical system shown in Figure 3(a). Give and explain one example the real application where you can relate with this system. (5 marks) b) Routh's stability criterion is of limited usefulness in linear control systems analysis mainly because it does not suggest how to stabilize an unstable system. Thus, we should evaluate the stability range of a parameter value. Consider the servo system with tachometer feedback as shown in Figure...
question 1 Question 3 a) Develop the transfer function X (s)/F(s) of the mechanical system shown in Figure 3(a). Give and explain one example the real application where you can relate with this system. (5 marks) b) Routh's stability criterion is of limited usefulness in linear control systems analysis mainly because it does not suggest how to stabilize an unstable system. Thus, we should evaluate the stability range of a parameter value. Consider the servo system with tachometer feedback as...