Given below in Fig. 2 is a mass-spring-damper system X1 X2 K1 K12 K2 M2 B2 B12 B1 B20 B10 Figure 2: Mass-Spring-Damper 5) Which of the following gives the differential equation governing the dynamics of mass M1? Mjë1 + (B, + Bo0 + B12)i2 – B12i, + (K2 + K12)*2 - K1271 = 0 Mäi + (B + B10 + B12)1 – Bna2 + (K1 + K12)*1 – K12*2 = 0 Mii + (Bi + Bi0 + 2B12)i1 + (K1+2K12)¤1 = 0 M1ä1+ (B2 + B20 + 2B12)*1 – B1222 + (K2 + 2K12)a1 = 0

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Given below in Fig. 2 is a mass-spring-damper system
X2
X1
K12
K1
K2
M2
B2
B1
12
B20
B10
Figure 2: Mass-Spring-Damper
5) Which of the following gives the differential equation governing the dynamics of mass Mi?
M#1 + (B + Bo + B12)*2 – B1zi, + (K2 + K12)F2 - K12T1 = 0
Miäi + (B + B10 + B12)1 – B1zi2 + (K1 + K12)*1 – K12*2 = 0
M1ä1 + (B1 + B10 + 2B12)1 + (Kı+ 2K12)x1 = 0
M1ä1+ (B2 + B20 + 2B12)*1 – B1222 + (K2 + 2K12)a1 = 0
Transcribed Image Text:Given below in Fig. 2 is a mass-spring-damper system X2 X1 K12 K1 K2 M2 B2 B1 12 B20 B10 Figure 2: Mass-Spring-Damper 5) Which of the following gives the differential equation governing the dynamics of mass Mi? M#1 + (B + Bo + B12)*2 – B1zi, + (K2 + K12)F2 - K12T1 = 0 Miäi + (B + B10 + B12)1 – B1zi2 + (K1 + K12)*1 – K12*2 = 0 M1ä1 + (B1 + B10 + 2B12)1 + (Kı+ 2K12)x1 = 0 M1ä1+ (B2 + B20 + 2B12)*1 – B1222 + (K2 + 2K12)a1 = 0
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