An engineering student suspends his 400 N tool box by using a system of ropes and pulleys, as shown in the figure. The mass M1 is equal to 36.0 kg. The angle 0 and the mass M2 have been chosen so that the entire system remains at rest. Assume that the pulleys are all ideal and frictionless, and that the cords have negligible weight. M2 Mi TOOL BOX 33. The angle 0 is equal to A. 48.6". B. 61.9. C. 35.0. D. 28.1". E. 41.4". 34. The mass M2 is equal to A. 40.8 kg. В. 36.0kg C. 54.4 kg. D. 16.7 kg. E. 18.4 kg.
An engineering student suspends his 400 N tool box by using a system of ropes and pulleys, as shown in the figure. The mass M1 is equal to 36.0 kg. The angle 0 and the mass M2 have been chosen so that the entire system remains at rest. Assume that the pulleys are all ideal and frictionless, and that the cords have negligible weight. M2 Mi TOOL BOX 33. The angle 0 is equal to A. 48.6". B. 61.9. C. 35.0. D. 28.1". E. 41.4". 34. The mass M2 is equal to A. 40.8 kg. В. 36.0kg C. 54.4 kg. D. 16.7 kg. E. 18.4 kg.
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Transcribed Image Text:An engineering student suspends his 400 N tool box by using a system of ropes and pulleys, as shown in the figure. The mass M1 is
equal to 36.0 kg. The angle 0 and the mass M2 have been chosen so that the entire system remains at rest. Assume that the
pulleys are all ideal and frictionless, and that the cords have negligible weight.
T2
M2
MI
TOOL BOX
33. The angle O is equal to
A. 48.6".
B. 61.9.
C. 35.0.
D. 28.1".
E. 41.4.
34. The mass M2 is equal to
A. 40.8 kg.
В. 36.0kg
C. 54.4 kg.
D. 16.7 kg.
E. 18.4 kg.
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