Two blocks mị 2 kg, m2 1 kg are hanging from a pulley as shown in the figure below. The moment of inertia through the axis of rotation passing through the center of the pulley is I = 1.70 kg m². The ropes are attached at two different distances from the center of the pulley. R1 = 50 cm and R2 = 20 cm. Find the tensions T and T2. a R. R T, т, T. а, Pulley and two blocks Pick the correct answer T = 20 N, T2 - 19 N T1 = 24.5 N, T2 = 17.64 N T1 = 21 N, T2 = 17 N I don't know how to do this problem T1 = 29 N, T2 = 16 N

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Chapter1: Units, Trigonometry. And Vectors
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Two blocks mị
2 kg, m2
1 kg are hanging from a pulley as shown in the
figure below. The moment of inertia through the axis of rotation passing through
the center of the pulley is I = 1.70 kg m². The ropes are attached at two
different distances from the center of the pulley. R1 = 50 cm and R2 = 20 cm.
Find the tensions T and T2.
a
R.
R
T,
т,
T.
а,
Pulley and two blocks
Pick the correct answer
T = 20 N, T2
- 19 N
T1 = 24.5 N, T2 = 17.64 N
T1 = 21 N, T2 = 17 N
I don't know how to do this problem
T1 = 29 N, T2 = 16 N
Transcribed Image Text:Two blocks mị 2 kg, m2 1 kg are hanging from a pulley as shown in the figure below. The moment of inertia through the axis of rotation passing through the center of the pulley is I = 1.70 kg m². The ropes are attached at two different distances from the center of the pulley. R1 = 50 cm and R2 = 20 cm. Find the tensions T and T2. a R. R T, т, T. а, Pulley and two blocks Pick the correct answer T = 20 N, T2 - 19 N T1 = 24.5 N, T2 = 17.64 N T1 = 21 N, T2 = 17 N I don't know how to do this problem T1 = 29 N, T2 = 16 N
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