A farmer is making use of a rope and sheave to lift a bucket of waterfrom the bottom of a well that is hy =10.5 m deep. The farmer provides a forceF1 = 55 N to pull the bucket of waterstraight upwards. The full mass of the bucket of water ismb + mw =3.5kg.You are watching: A farmer is using a rope and pulley Randomized Variableshy =10.5 mF1 = 55 Nmb + mw = 3.5kg |

**Part (a)**Select the correct freebody diagram.

**Part (b)**Calculate exactly how a lot work

*Wf*in J the farmer does on the bucket of water(via the rope) to raise it to ground level.

**Part (c)**Calculate just how much work

*Wg*in J gravity does on the bucket filled withwater as the farmer lifts it up the well.

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**Part (d)**Calculate the net work

*Wnet*in J done on the bucket of water by the2 forces

*F1*and

*Fg*.Sexactly how transcribed photo message A farmer is making use of a rope and sheave to lift a bucket of water from the bottom of a well that is hy = 10.5 m deep. The farmer offers a forceF1 = 55 N to pull the bucket of water directly upwards. The complete mass of the bucket of water is mb + mw =3.5 kg. Randomized Variableshy = 10.5 m F1 = 55 N mb + mw = 3.5 kg Part (a) Select the correct cost-free body diagram. Part (b) Calculate just how much occupational Wf in J the farmer does on the bucket of water (using the rope) to raise it to ground level. Part (c) Calculate how much work Wg in J gravity does on the bucket filled with water as the farmer lifts it up the well. Part (d) Calculate the net occupational Wnet in J done on the bucket of water by the 2 forces F1 and also Fg.