Both blocks in the diagram below are in static equilibrium. The 34 kg hanging mass is fully submerged in water and has a volume of 0.0122 m3. The rope connecting the blocks has a mass of 0.9 kg and is 1.7 m long. Determine the tension of the rope and the speed of any transverse waves that pass through the rope. Assume the mass of the rope has no significant effect on the tension. The density of water is 1000 kg/m3.
Both blocks in the diagram below are in static equilibrium. The 34 kg hanging mass is fully submerged in water and has a volume of 0.0122 m3. The rope connecting the blocks has a mass of 0.9 kg and is 1.7 m long. Determine the tension of the rope and the speed of any transverse waves that pass through the rope. Assume the mass of the rope has no significant effect on the tension. The density of water is 1000 kg/m3.
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Both blocks in the diagram below are in static equilibrium. The 34 kg hanging mass is fully submerged in water and has a volume of 0.0122 m3. The rope connecting the blocks has a mass of 0.9 kg and is 1.7 m long. Determine the tension of the rope and the speed of any transverse waves that pass through the rope. Assume the mass of the rope has no significant effect on the tension. The density of water is 1000 kg/m3.
FT=
v wave =
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