Question

If you used an ideal pulley of the type shown in Figure $9.25(\text { a) to support a car engine of mass } 115 \mathrm{kg},$ (a) What would be the tension in the rope? (b) What force must the ceiling supply, assuming you pull straight down on the rope? Neglect the pulley system's mass. 

          If you used an ideal pulley of the type shown in Figure $9.25(\text { a) to support a car engine of mass } 115 \mathrm{kg},$ (a) What would be the tension in the rope? (b) What force must the ceiling supply, assuming you pull straight down on the rope? Neglect the pulley system's mass.
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University Physics with Modern Physics
University Physics with Modern Physics
Hugh D. Young 14th Edition
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If you used an ideal pulley of the type shown in Figure $9.25(\text { a) to support a car engine of mass } 115 \mathrm{kg},$ (a) What would be the tension in the rope? (b) What force must the ceiling supply, assuming you pull straight down on the rope? Neglect the pulley system's mass.
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If you used an ideal pulley of the type shown in Figure 9.27(a) to support a car engine of mass 115 kg , (a) What would be the tension in the rope? (b) What force must the ceiling supply, assuming you pull straight down on the rope? Neglect the pulley system's mass.

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Transcript

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00:01 We'd like to find the tension in the rope.
00:03 So we can look at our forces in the vertical direction.
00:06 In our vertical direction, we have two times our tension minus our weight force is equal to zero.
00:13 So we find that two times our tension is equal to our 115 kilograms times 9 .8...
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