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A farm tractor tows a 3300 kg trailer up a 14 degree incline with a steady speed of 2.8 m/s. What force does the tractor exert on the trailer?

User Sushil Kandola
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We are asked to determine the force that the tractors is exerting on a trailer up an incline. A free-body diagram of the situation is the following:

Where:


\begin{gathered} F=\text{ force of the tractor} \\ m=\text{ mass of the trailer} \\ g=\text{ acceleratio of gravity} \end{gathered}

Now, we add the forces in the direction of the incline:


\Sigma F_x=F-mg_x

To determine the x-component of "mg" we use the following right triangle:

Now, we use the function sine to determine the value of "mgx":


\sin14=(mg_x)/(mg)

Now, we multiply both sides by "mg":


mg\sin14=mg_x

Now, we substitute the values of "m" and "g":


(3300kg)(9.8(m)/(s^2))\sin14=mg_x

Solving the operations:


7823.75N=mg_x

Now, we substitute the value in the sum of forces:


\Sigma F_x=F-7823.75N

Since the object is moving at a steady speed this means that the sum of forces is zero:


F-7823.75N=0

Now, we add 7823.75N to both sides:


F=7823.75N

Therefore, the tractor exerts a force of 7823.75N

A farm tractor tows a 3300 kg trailer up a 14 degree incline with a steady speed of-example-1
A farm tractor tows a 3300 kg trailer up a 14 degree incline with a steady speed of-example-2
User Stellasia
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