


QUESTION 6 Let fvı and fv(3) in K1 and K3 locations respectively in the figure. No...
For a mass-spring-damper mechanical systems shown below, x200) K1-1 N/m 0000 -X,(0) K-1 N/m 00004 = 1 N-s/m fr2 M1=1 kg = 2 N-s/m M2 -1 kg 13 = 1 N-s/m 1. Find the differential equations relating input force f(t) and output displacement xi(t) and x2(C) in the system. (40 marks) (Hint: K, fy and M are spring constant, friction coefficient and mass respectively) 2. Determine the transfer function G(s)= X1(s)/F(s) (20 marks)
For a mass-spring system shown in the figure below. Write the dynamic equations in matrix form and find the natural frequencies for this system, eigen values, eigen vectors and mode shapes assuming: m1=1 kg, m2=4 kg, k1=k3=10 N/m, and k2=2 N/m. / ر2 دی) x1(0) x2(0) K3 K1 W K2 mi W4 m2 (-?
3. A motor with torque T and inertia Jm drives a load of inertia Joad via a shaft which may be assumed to have infinite stiffness and viscous damping b. Determine the transfer function between the torque T and the shaft speed w. 4. Find the transfer function X2(s)/F (s) of the spring-mass system shown in Figure 4. The system moves over a frictionless surface X2 X1 b k2 k1 M2 M1 Figure 4. A 2 DOF spring-mass system over...
If possible can you show step
by step because I'm new in this subject
X1(S) X2(S) Find the transfer function and for the mechanical system below F(S) F(S) K1 = 4 N/m X;(1) K2= 5 N/m -X2(1) 0000 0000 fv1 = 3 N-s/m M1 =1 kg|v2 = 3 N-s/m M2 = 2 kg Sva= 2 N-s/m HE
Find the transfer function, X1(s)/F(s) for the diagram
below
A consultant engineer is assigned by his manager to obtain the transfer function X1 F(s) for train carriage model as shown in Figure below. Given that K1 -5 N/m, K2 = 7 N/m, fv1 = 4 N-s/m.fv2 = 3 N-s/m.fv3 = 2 N-5/m and M1-M2 = 1kg. X1 (t) Xz(t) fv1 M fit Frictionless
4. Determine the transfer function G(s) = for the system shown below. F(s) K1 = 4 N/m + X(t) →xj(t) K = 5 N/m 0000 M = 1 kg 1v2 = 3 N-s/m M2 = 2 kg f(t) HHH
w a. Obtain the transfer functions X1(s)/U(s) and X2(s)/U(s) of the mechanical system shown in the figure. b. Solve the transfer function to retrieve the information on the response function (as a function of time t) by assuming the m1 = m2 and ki = ki =k3 C. Plot the response function d. Show the impact of doubling the mass m2 = 2m1 on the response function - plot it to compare it with that described in case C
O/3 points | Previous Answers WWCMDiffEQLinAlg1 7.5.006. My Not Suppose that masses mi and m2 are only connected by two springs as in the figure below, but add an external force of cos(wt) that acts on m2. Let mi = 2, m2 = 1, ki =4 and k12 2 k2 my m. does resonance occur? (Enter your answers as a comma-separated list.) For what forcing frequencies -k - k17 k12 m1 0 K1 M. K Y -k12 f2(t) k12 m2...
For the system shown in Fig. 1, solve the following problems. (a) Find the transfer function, G(s)X2 (s)/F(s) (b) Does the system oscillate with a unit step input (f (t))? Explain the reason (c) Decide if the system(x2 (t)) is stable with a unit step input (f (t))? Explain the reason 1. 320) 8 kg 2 N/m 4N-s/m 2N-s/m Fig. 1 2. There are two suspensions for a car as shown in Fig. 2 (a) Find the equations of each...
Consider the system shown. Let m-1; m2-2, k-4,b-2,p 5sin (3t) X1(s) a) Find the transfer functions G1(s) - b) Find the steady state outputs x1ss(s), x2(s) X2(s) F(s) pt) mi 112 m2 1s