Vector Mechanics for Engineers: Statics
Vector Mechanics for Engineers: Statics
12th Edition
ISBN: 9781260501735
Author: BEER
Publisher: MCG
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Chapter 10, Problem 10.101RP

Determine the vertical force P that must be applied at G to maintain the equilibrium of the linkage.

Chapter 10, Problem 10.101RP, Determine the vertical force P that must be appliedat G to maintain the equilibrium of the linkage.

Fig. P10.101 and P10.102

Expert Solution & Answer
Check Mark
To determine

Find the vertical force P that should be applied at G for which the equilibrium is maintained.

Answer to Problem 10.101RP

The vertical force P required for the equilibrium is 60.0lb()_.

Explanation of Solution

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

Vector Mechanics for Engineers: Statics, Chapter 10, Problem 10.101RP

Consider the vertical displacement at A as (δyA).

Find the vertical displacement (δyC) at C as follows;

8δyA=12δyCδyC=128δyAδyC=1.5δyA()

Find the vertical displacement (δyE) at E as follows;

δyE=δyC=1.5δyA()

Find the vertical displacement (δyD) at D as follows;

18δyD=6δyEδyD=186δyEδyD=3(1.5δyA)=4.5δyA()

Find the vertical displacement (δyG) at G as follows;

18δyD=10δyGδyG=1018δyDδyG=1018(4.5δyA)=2.5δyA()

Use the virtual work principle:

δU=0300δyA100δyD+PδyG=0

Substitute 4.5δyA for δyD and 2.5δyA for δyG.

300δyA100(4.5δyA)+P(2.5δyA)=0300450+2.5P=02.5P=150P=60.0lb()

Therefore, the vertical force P required for the equilibrium is 60.0lb()_.

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Chapter 10 Solutions

Vector Mechanics for Engineers: Statics

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