A force of P = 200 N is applied to block A and causes block A to accelerate to the right on a rough surface as shown in Figure below. Knowing that the mass for block A is 10 kg and the mass for block...


A force of P = 200 N is applied to block A and causes block A to accelerate to<br>the right on a rough surface as shown in Figure below. Knowing that the mass<br>for block A is 10 kg and the mass for block B is 6 kg. The coefficient of kinetic<br>friction between block A and the surface is 0.15. Pulleys are massless and<br>smooth.<br>A<br>30°<br>(6 + a) kg<br>6 kg<br>B<br>Determine the tension in the cable attached to block A. Explain with calculations on<br>the possible way(s) to reduce the acceleration of block B.<br>

Extracted text: A force of P = 200 N is applied to block A and causes block A to accelerate to the right on a rough surface as shown in Figure below. Knowing that the mass for block A is 10 kg and the mass for block B is 6 kg. The coefficient of kinetic friction between block A and the surface is 0.15. Pulleys are massless and smooth. A 30° (6 + a) kg 6 kg B Determine the tension in the cable attached to block A. Explain with calculations on the possible way(s) to reduce the acceleration of block B.

Jun 11, 2022
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