Principles of Physics: A Calculus-Based Text, Hybrid (with Enhanced WebAssign Printed Access Card)
Principles of Physics: A Calculus-Based Text, Hybrid (with Enhanced WebAssign Printed Access Card)
5th Edition
ISBN: 9781305586871
Author: Raymond A. Serway, John W. Jewett
Publisher: Cengage Learning
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Chapter 5, Problem 40P

(a)

To determine

The friction force exerted by the road.

(a)

Expert Solution
Check Mark

Answer to Problem 40P

The friction force exerted by the road is 3.95×103N_.

Explanation of Solution

Write the expression for drag force on the car.

    R=12DρAv2        (I)

Here, R is the dray force, D is the drag coefficient, ρ is the density, A is the area, and v is the speed of the car.

Frictional force and drag force are opposite in direction.

Using Newton’s second law, write the expression for net force in the horizontal direction.

    fsR=ma        (II)

Here, fs is the force due to static friction, a is the acceleration in the horizontal direction, and m is the mass.

Solve equation (III) for fs.

    fs=R+ma        (III)

Use equation (I) in (II).

    fs12DρAv2=ma        (IV)

Conclusion:

Substitute, 0.34 for D, 1.2kg/m3 for ρ, 2.6m2 for A, and 10m/s for v in the equation (I), to find R.

    R=12(0.34)(1.2kg/m3)(2.6m2)(10m/s)2=53.0N

Substitute, 53.0N for R, 1300kg for m, and 3m/s2 for a in the equation (III), to find fs.

    fs=53.0N+(1300kg)(3m/s2)=3.95×103N

Therefore, the friction force exerted by the road is 3.95×103N_.

(b)

To determine

The acceleration of the car if drag coefficient is 0.200.

(b)

Expert Solution
Check Mark

Answer to Problem 40P

The acceleration of the car if drag coefficient is 0.200 is 3.02m/s2_.

Explanation of Solution

Conclusion:

Substitute, 3950N for fs, 1300kg for m, 0.200 for D, 1.2kg/m3 for ρ, 2.6m2 for A, and 10m/s for v in the equation (IV), and solve for a.

    3950N12(0.200)(1.2kg/m3)(2.6m2)(10m/s)2=(1300kg)aa=3950N31.2N(1300kg)=3.02m/s2

Therefore, the acceleration of the car is 3.02m/s2_.

(c)

To determine

The possible maximum speed pf the car at D=0.340.

(c)

Expert Solution
Check Mark

Answer to Problem 40P

The possible maximum speed pf the car at D=0.340 is 86.3m/s_.

Explanation of Solution

At the maximum speed, the net force along the horizontal direction is zero.

Conclusion:

Substitute, 3950N for fs, 0 for ma, 0.34 for D, 1.2kg/m3 for ρ, and, 2.6m2 for A in the equation (IV), and solve for v.

    3950N12(0.34)(1.2kg/m3)(2.6m2)v2=0v=39500.530kgmms2kg=86.3m/s

Therefore, The possible maximum speed pf the car at D=0.340 is 86.3m/s_.

(d)

To determine

The possible maximum speed pf the car at D=0.200.

(d)

Expert Solution
Check Mark

Answer to Problem 40P

The possible maximum speed pf the car at D=0.200 is 113m/s_.

Explanation of Solution

Conclusion:

Substitute, 3950N for fs, 0 for ma, 0.34 for D, 1.2kg/m3 for ρ, and, 2.6m2 for A in the equation (IV), and solve for v.

    3950N12(0.200)(1.2kg/m3)(2.6m2)v2=0v=39500.312kgmms2kg=113m/s

The drag reduction significantly affects maximum speed.

Therefore, the possible maximum speed pf the car at D=0.200 is 113m/s_.

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Chapter 5 Solutions

Principles of Physics: A Calculus-Based Text, Hybrid (with Enhanced WebAssign Printed Access Card)

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