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Chapter 8: Q.2 (page 198)

A car runs out of gas while driving down a hill. It rolls through the valley and starts up the other side. At the very bottom of the valley, which of the free-body diagrams in FIGURE Q8.2 is correct? The car is moving to the right, and drag and rolling friction are

negligible.

Short Answer

Expert verified

Option a is the best suitable free body diagram for this car.

Step by step solution

01

Given information

A car runs out of gas while driving down a hill. It rolls through the valley and starts up the other side.

Proof:

We can analyze the situation quantitatively by writing the r-component of Newton鈥檚 second law. At the bottom of the circle, with the r-axis pointing upward, we have

Fr=nr+(FG)r=n-mg=mar=m(vcar)2r

From the above equation, we find,

n=mg+m(vcar)2r

The normal force at the bottom is larger than mg. The normal force of the track pushes up when the car is at the bottom of the circle.

02

Explanation

The normal force at the bottom is larger than mg. The normal force of the track pushes up when the car is at the bottom of the circle. Option a in the given FIGURE Q8.2 is the suitable free body diagram.

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