Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
15th Edition
ISBN: 9781305289963
Author: Debora M. Katz
Publisher: Cengage Custom Learning
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Chapter 5, Problem 50PQ

Chapter 5, Problem 50PQ, FIGURE P5.49 Problems 49 and 50. Suppose the system of blocks in Problem 49 is initially held

FIGURE P5.49 Problems 49 and 50.

Suppose the system of blocks in Problem 49 is initially held motionless and, when released, begins to accelerate. a. If m1 = 7.00 kg, m2 = 2.00 kg, and the magnitude of the acceleration of the blocks is 0.134 m /s2, find the magnitude of the kinetic frictional force between the second block and the ledge. b. What is the value of the coefficient of kinetic friction between the block and the ledge?

(a)

Expert Solution
Check Mark
To determine

What is the kinetic friction force between the second block and ledge?

Answer to Problem 50PQ

The kinetic friction force between the second block and ledge is 60.8 N.

Explanation of Solution

The free body diagram is given below.

Physics for Scientists and Engineers: Foundations and Connections, Chapter 5, Problem 50PQ

Applying Newton’s laws.

    ΣFy=Fg1FT=m1a                                                                                (I)

Here, Fy is the force, FT is the tension force, m1 is the mass, Fg1 is the gravitational force on m1 and a is the acceleration.

    ΣFx=FTFg2,xFk=m2a                                                                       (II)

Here, Fg2,x is the gravitational force on m2 and Fk is the friction force.

Write the equation for gravitational force.

    Fg=mg                                                                                              (III)

Here, g is the acceleration due to gravity.

Conclusion:

Using equation III find the gravitational force on each object.

    Fg1=m1g=(7.00 kg)(9.81 m/s2)=68.7 N

    Fg2=m1g=(2.00 kg)(9.81 m/s2)=19.6 N

From the free body diagram the find the value of Fg2,x.

    Fg2,x=Fg1sin(20°)=(19.6 N)sin(20°)=6.70 N

Substitute the above values and 0.134 m/s2 for a in equation I to get tension force.

    68.7 NFT=(7.00 kg)(0.134 m/s2)FT=68.7 N(7.00 kg)(0.134 m/s2)=67.8 N

Substitute above values in equation II to get friction force.

    68.7 N6.70 NFk=(2.00 kg)(0.134 m/s2)68.7 N6.70 NFk=0.268 NFk=60.8 N

Therefore, the kinetic friction force between the second block and ledge is 60.8 N.

(b)

Expert Solution
Check Mark
To determine

Find the coefficient of kinetic friction force between the block and ledge.

Answer to Problem 50PQ

The coefficient of kinetic friction force between the block and ledge is 3.30.

Explanation of Solution

Applying Newton’s laws for y direction on block 2.

    ΣFy=FNFg2,y=0                                                                       (IV)

Here, Fg2,y is the gravitational force on block 2 in y direction and FN is the normal force.

Write the equation for friction force.

    Fk=μkFN                                                                                               (V)

Here, Fk is the friction force, μk is the coefficient of kinetic friction and FN is the normal force.

Conclusion:

From the free body diagram the find the value of Fg2,y.

    Fg2,y=Fg2cos(20°)=(19.6 N)cos(20°)=18.4 N

Substitute 18.4 N for Fg2,y in equation IV.

    FN18.4 N=0FN=18.4 N

Substitute 18.4 N for FN and 60.8 N for FK in equation V to find coefficient of friction.

     μk=FkFN=60.8 N18.4 N=3.30

Therefore, the coefficient of kinetic friction force between the block and ledge is 3.30.

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Chapter 5 Solutions

Physics for Scientists and Engineers: Foundations and Connections

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