Summary - it is basic problem so I have shown step by step solution
QUESTION 19 Q12 (c) For the above problem, determine the Ratio of the Normal Modes for the Second Natural Frequeney,w using: 12 -J2w2+K12 rad, k-135-10 Nmrad, -5 kg and J2- -1.0 kg, w2 139.290766...
Blackboard QUESTION 18 012 (b): For the above problem, determine the First Natural Frequency, w1 of the system, in rad/s Take Atl-8.25x 103 Nm/rad, kt2-1.35x103 Nm/rad, J,-0.5 kg and J2-1.0 kg QUESTION 19 012 (ch For the above problem, determine the Ratio of the Normal Modes for the Second Natural Frequency, wz using: t2 Take Arl-8.25x ㎡ Nmrad. Ar2-1.35x 10S N mirad, J,-0.5 kg and々-1.0 kg, ω2-139.2907864 rad's QUESTION 20 013 are stiffnesses of the given springs For the system...
For the above problem, determine the First Natural Frequency, W1 of the system, in rad/s: 3,0x40,Nmk7-0.9x103 Nim, k3-35x103 Nim, mrl-3.0 kg and m2 = 3.0 kg Take k For the above problem, determine the Ratio of the Normal Modes for the Second Natural Frequency, r 2 using 2 Take ky-8.25x103 N/m, k2 1,.35-103 N/m, k3-6.25-103 Nim, my-0.5 kg and m2-10 kg ystem shown below, where kjk2. k3 and k4 are stiffnesses of the given springs kFi(t) m2 ms Point 1...
0qaton of motion inf n R12 t2 t2 Equation of motion in matrix form Click Save and Submit to QUESTION 17 Q12 (p) Por the above problem, assuning harmoeie soion a(,)-9 cos(or + φ) t 2 O The frequency or charact ristic eq tion: QUESTION 18 012 (b): For the above QUESTION 19 Q12 (c) For the above problem, determine the Ratio of the Normal Modes for the Second Natural Frequency, w2 using 12 0qaton of motion inf n R12...