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Imagine that the car in example N3.5 must convert chemical energy to other forms

ID: 2182352 • Letter: I

Question

Imagine that the car in example N3.5 must convert chemical energy to other forms at a rate of 10,000 W to keep moving at a constant speed of 25 m/s. If the car's mass is m = 1100 kg, its constant speed is v = 25 m/s, and the radius of the curve is R = 120 m, what angle does the static friction force on the car make with the car's direction of travel as it rounds the curve? Be sure to describe your reasoning. (Hint: Argue that the rate at which drag extracts energy from the car's kinetic energy is given by [dk]/[dt] = F*v = -F*v. )

Explanation / Answer

power = F*v

10,000 = F*25

F = 400N

friction force = 400

dk/dt =

2mvdv/dt

=2mv(N/m)

so 2vN = 10000

2*25**400 = 10000

= 0.5

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