VECTOR MECHANICS FOR ENGINEERS: STATICS
VECTOR MECHANICS FOR ENGINEERS: STATICS
12th Edition
ISBN: 9781259977121
Author: BEER
Publisher: MCG
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Textbook Question
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Chapter 8.2, Problem 8.64P

A 15° wedge is forced under a 50-kg pipe as shown. The coefficient of static friction at all surfaces is 0.20. (a) Show that slipping will occur between the pipe and the vertical wall. (b) Determine the force P required to move the wedge.

Chapter 8.2, Problem 8.64P, A 15 wedge is forced under a 50-kg pipe as shown. The coefficient of static friction at all surfaces

Fig. P8.64 and P8.65

(a)

Expert Solution
Check Mark
To determine

Show that the slipping will occur between the pipe and the vertical wall.

Explanation of Solution

Given information:

The mass of the pipe is m=50kg.

The value of angle θ is 15°.

The coefficient of static friction at all surfaces is μs=0.20.

Calculation:

Find the weight (W) of the pipe using the relation.

W=mg

Here, the acceleration due to gravity is g.

Consider the acceleration due to gravity is g=9.81m/s2.

Substitute 50 kg for m and 9.81m/s2 for g.

W=50×9.81=490.5N

Show the free-body diagram of the pipe as in Figure 1.

VECTOR MECHANICS FOR ENGINEERS: STATICS, Chapter 8.2, Problem 8.64P , additional homework tip  1

Find the friction force at point A using the relation.

FA=μsNA

Here, the normal force at point A is NA.

Find the normal force at point A by taking moment about point B.

MB=0W(rsinθ)+FA(r+rsinθ)NA(rcosθ)=0Wrsinθ+μsNAr(1+sinθ)NArcosθ=0Wsinθ+μsNA(1+sinθ)NAcosθ=0

Substitute 490.5 N for W, 0.20 for μs and 15° for θ.

490.5sin15°+0.20NA(1+sin15°)NAcos15°=0126.951+0.252NA0.966NA=00.714NA=126.951NA=177.803N

Find the friction force at point B (FB) by resolving the horizontal component of forces.

+Fx=0FBWsinθFAsinθ+NAcosθ=0FBWsinθμsNAsinθ+NAcosθ=0

Substitute 490.5 N for W, 0.20 for μs, 177.803 N for NA, and 15° for θ.

FB490.5sin15°0.20×177.803×sin15°+177.803cos15°=0FB126.9519.204+171.745=0FB=35.59N

Find the normal force at point B (NB) by resolving the vertical component of forces.

+Fy=0NBWcosθFAcosθNAsinθ=0NBWcosθμsNAcosθNAsinθ=0

Substitute 490.5 N for W, 0.20 for μs, 177.803 N for NA, and 15° for θ.

NB490.5cos15°0.20×177.803×cos15°177.803×sin15°=0NB473.78734.34946.019=0NB=554.155N

Find the maximum friction force at point B using the relation.

(FB)m=μsNB

Substitute 0.20 for μs and 554.155 N for NB.

(FB)m=0.20×554.155=110.831N

The friction force at point B is less than the maximum friction force at point B.

FB=35.59N<(FB)m=110.831N

Therefore, the slipping will not occur at point B and the slipping will occur between the pipe and the vertical wall.

(b)

Expert Solution
Check Mark
To determine

Find the force P required to move the wedge.

Answer to Problem 8.64P

The force P required to move the wedge is 283N()_.

Explanation of Solution

Given information:

The mass of the pipe is m=50kg.

The value of angle θ is 15°.

The coefficient of static friction at all surfaces is μs=0.20.

Calculation:

Show the free-body diagram of the wedge as in Figure 2.

VECTOR MECHANICS FOR ENGINEERS: STATICS, Chapter 8.2, Problem 8.64P , additional homework tip  2

Find the normal force (N1) by resolving the vertical component of forces.

Fy=0N1NBcosθ+FBsinθ=0

Substitute 554.155 N for NB, 15° for θ, and 35.59 N for FB.

N1554.155cos15°+35.59sin15°=0N1535.273+9.211=0N1=526.062N

Find the force P by resolving the horizontal component of forces.

+Fx=0FBcosθ+NBsinθ+F1P=0FBcosθ+NBsinθ+μsN1P=0

Substitute 554.155 N for NB, 15° for θ, 526.062 N for N1, 0.20 for μs, and 35.59 N for FB.

35.59cos15°+554.155sin15+0.20×526.062P=034.377+143.426+105.212P=0P=283N()

Therefore, the force P required to move the wedge is 283N()_.

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Chapter 8 Solutions

VECTOR MECHANICS FOR ENGINEERS: STATICS

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