m1 E ~/8 100 g A block of mass m₁=2 (kg) is connected to a mass of m2-3 (kg) by a 13 (m) long rope passing through a pulley of negligible mass, as shown in the figure. The system (rope and objects) is released at 0. All frictions in the system are neglected. According to the xy-coordinate system given in the figure, using this information, answer the following three questions (5-7). (g=10 (m/s²)) 5) For 1 (s), what is the position vector of the center of mass of the system with respect to O point in terms of unit vectors in (m) unit? 8 m 0 m₂ 5m
m1 E ~/8 100 g A block of mass m₁=2 (kg) is connected to a mass of m2-3 (kg) by a 13 (m) long rope passing through a pulley of negligible mass, as shown in the figure. The system (rope and objects) is released at 0. All frictions in the system are neglected. According to the xy-coordinate system given in the figure, using this information, answer the following three questions (5-7). (g=10 (m/s²)) 5) For 1 (s), what is the position vector of the center of mass of the system with respect to O point in terms of unit vectors in (m) unit? 8 m 0 m₂ 5m
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Transcribed Image Text:m1
E
~/8
100
g
A block of mass m₁=2 (kg) is connected to a mass of m2-3 (kg) by a 13
(m) long rope passing through a pulley of negligible mass, as shown in the
figure. The system (rope and objects) is released at 0. All frictions in the
system are neglected. According to the xy-coordinate system given in the
figure, using this information, answer the following three questions (5-7).
(g=10 (m/s²))
5) For 1 (s), what is the position vector of the center of mass of the
system with respect to O point in terms of unit vectors in (m) unit?
8 m
0
m₂
5m
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