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Multiple-Concept Example 17 reviews the basic concepts involved in this problem.

ID: 2117731 • Letter: M

Question

Multiple-Concept Example 17 reviews the basic concepts involved in this problem. Air rushing over the wings of high-performance race cars generates unwanted horizontal air resistance but also causes a vertical downforce, which helps cars hug the track more securely. The coefficient of static friction between the track and the tires of a 683-kg car is 0.907. What is the magnitude of the maximum acceleration at which the car can speed up without its tires slipping when a 4820-N downforce and an 1320-N horizontal air resistance force act on it

Explanation / Answer

F = ma = f=N

a = N/m = 0.907 * (1320+4820)/683 = 8.154 m/s2

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Multiple-Concept Example 3 provides some pertinent background for this problem.

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