When the system shown is released from rest, block A requires a velocity of 2 m/s after moving 1m up. Determine, a) The force exerted by the rope on each of two blocks during the motion, b) If , find the energy dissipated due to friction (between pipes and rope).
When the system shown is released from rest, block A requires a velocity of 2 m/s after moving 1m up. Determine, a) The force exerted by the rope on each of two blocks during the motion, b) If , find the energy dissipated due to friction (between pipes and rope).
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When the system shown is released from rest, block A requires a velocity of 2 m/s after moving 1m up. Determine,
- a) The force exerted by the rope on each of two blocks during the motion,
b) If , find the energy dissipated due to friction (between pipes and rope).
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