A 3 kg body is connected via an inextensible cable to a 1 kg body. A 30 N force at 37 degrees to the horizontal surface is applied at the free end of the 3 kg body and the two bodies begin moving under the effect of the applied force. Find the acceleration, in m/s², of the 3 kg body. Use g=10m/s², sin 37 = 0.6 and cos 37 = 0.8. Round the answer to the first decimal.
A 3 kg body is connected via an inextensible cable to a 1 kg body. A 30 N force at 37 degrees to the horizontal surface is applied at the free end of the 3 kg body and the two bodies begin moving under the effect of the applied force. Find the acceleration, in m/s², of the 3 kg body. Use g=10m/s², sin 37 = 0.6 and cos 37 = 0.8. Round the answer to the first decimal.
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A 3 kg body is connected via an inextensible cable to a 1 kg body.
A 30 N force at 37 degrees to the horizontal surface is applied at the free end of the 3 kg body and the two bodies begin moving under the effect of the applied force.
Find the acceleration, in m/s2, of the 3 kg body.
Use g =10m/s2, sin 37 = 0.6 and cos 37 = 0.8. Round the answer to the first decimal.
Transcribed Image Text:A 3 kg body is connected via an inextensible cable to a 1 kg body.
A 30 N force at 37 degrees to the horizontal surface is applied at the free end of the 3 kg body and the
two bodies begin moving under the effect of the applied force.
Find the acceleration, in m/s², of the 3 kg body.
Use g=10m/s², sin 37 = 0.6 and cos 37 = 0.8. Round the answer to the first decimal.
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