International Edition---engineering Mechanics: Statics, 4th Edition
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN: 9781305501607
Author: Andrew Pytel And Jaan Kiusalaas
Publisher: CENGAGE L
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Textbook Question
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Chapter 2, Problem 2.80P

The figure shows one-half of a universal coupling known as the Hooke's joint. The coupling is acted on by the three couples shown: (a) the input couple consisting of forces of magnitude P, (b) the output couple C 0 , and (c) the couple formed by bearing reactions of magnitude R. If the resultant of these couples is zero, compute R and C 0 for P = 750 lb .

Chapter 2, Problem 2.80P, The figure shows one-half of a universal coupling known as the Hooke's joint. The coupling is acted

Expert Solution
Check Mark
To determine

(i)

The input couple consisting of forces of magnitude P.

Answer to Problem 2.80P

  The input couple consisting of forces of magnitude Pis4500lbin.

Explanation of Solution

Given:

P= 750 lb

Concept Used:

  Couple=r×P.n^

Calculation:

  TheinputCouplefromtheforces=r×P.n^C=6Pi^C=6×750i^C=4500lbin

Conclusion:

  The input couple consisting of forces of magnitude Pis4500lbin.

Expert Solution
Check Mark
To determine

(ii)

The output couple Co.

Answer to Problem 2.80P

The output couple Cois 3900 lb-ft.

Explanation of Solution

Given:

P= 750 lb

Calculation:

  Co=Co(cos30°i^+sin30°k^)Co=Co(0.8660i^+0.5k^)CR=2R(sin30°i^cos30°k^)CR=R(1i^1.732k^)Now,weknowthatthesumofallthereactionwillbe0.C=Cii^+Co(0.8660i^+0.5k^)+R(1i^1.732k^)=0(45000.8660CoR)i^+(0.5Co1.732R)k^=0(45000.8660CoR)=0(0.5Co1.732R)=0Solvingtheabovetwoequation,Co=3900lbinR=1125lb

Conclusion:

The output couple Co is 3900 lb-ft.

Expert Solution
Check Mark
To determine

(iii)

The magnitude of the reaction forces.

Answer to Problem 2.80P

The magnitude of the reaction forces is 1125 lb.

Explanation of Solution

Given:

P= 750 lb

Calculation:

  Co=Co(cos30°i^+sin30°k^)Co=Co(0.8660i^+0.5k^)CR=2R(sin30°i^cos30°k^)CR=R(1i^1.732k^)Now,weknowthatthesumofallthereactionwillbe0.C=Cii^+Co(0.8660i^+0.5k^)+R(1i^1.732k^)=0(45000.8660CoR)i^+(0.5Co1.732R)k^=0(45000.8660CoR)=0(0.5Co1.732R)=0Solvingtheabovetwoequations.Co=3900lbinR=1125lb

Conclusion:

The magnitude of the reaction forces is 1125 lb.

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Chapter 2 Solutions

International Edition---engineering Mechanics: Statics, 4th Edition

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