VECTOR MECHANICS FOR ENGINEERS: STATICS
VECTOR MECHANICS FOR ENGINEERS: STATICS
12th Edition
ISBN: 9781260536225
Author: BEER
Publisher: MCG
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Textbook Question
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Chapter 4.2, Problem 4.69P

A 50-kg crate is attached to the trolley-beam system shown. Knowing that a = 1.5 m, determine (a) the tension in cable CD, (b) the reaction at B

Chapter 4.2, Problem 4.69P, A 50-kg crate is attached to the trolley-beam system shown. Knowing that a = 1.5 m, determine (a)

Fig.P4.69

(a)

Expert Solution
Check Mark
To determine

The tension in the cable CD.

Answer to Problem 4.69P

The tension in the cable CD is 499N

Explanation of Solution

Calculation:

If the rigid body subjected to three forces, such a body is commonly called a three-force body. If a two force body is in equilibrium the lines of action of the three forces must be either concurrent or parallel.

VECTOR MECHANICS FOR ENGINEERS: STATICS, Chapter 4.2, Problem 4.69P , additional homework tip 1

The figure 1 represents the free body diagram of the system. The weight is acting downwards. The W and TCD intersect at E. The three forces W, TCD and B are intersect at E.

Write the expression for the angle β from the given figure.

tanβ=0.749mWB (I)

Here, β is the angle.

Write the expression for the weight acting on the system.

W=mg

Here, m is the mass, g is the acceleration due to gravity

VECTOR MECHANICS FOR ENGINEERS: STATICS, Chapter 4.2, Problem 4.69P , additional homework tip 2

Figure 2 represents a force triangle as shown in the above figure with its interior angles computed from the known directions of the forces. Then use the law of sines to find the unknown forces.

Write the expression for the law of sines from the force triangle.

Wsin(61.55°)=TCDsin(90β)°=Asin(55°) (II)

Conclusion:

Substitute 1.5m for WB in equation I to find β.

tanβ=0.7497m1.5m=0.499β=tan1(0.499)=26.55°

Substitute 50kg for m and 9.81m/s2 in equation II to find g.

W=(50kg)(9.81m/s2)=490.5N

Substitute 490.5N for W, and 26.55° for β in equation III to find B and TCD.

490.5Nsin(61.55°)=TCDsin(9026.55)°=Asin(55°)Wsin(61.55°)=TCDsin63.44°=Asin(55°)490.50.879=TCD0.894=A0.819

On rearranging the above equation to find T.

TCD×0.879=438.50TCD=438.500.879=498.87N=499N

Therefore, the tension in the cable CD is 499N

(b)

Expert Solution
Check Mark
To determine

The reaction at B.

Answer to Problem 4.69P

The reaction at B is 457N.

Explanation of Solution

Calculation:

If the rigid body subjected to three forces, such a body is commonly called a three-force body. If a two force body is in equilibrium the lines of action of the three forces must be either concurrent or parallel.

The figure 1 represents the free body diagram of the system. The weight is acting downwards. The W and TCD intersect at E. The three forces W, TCD and B are intersect at E.

Write the expression for the angle β from the given figure.

tanβ=0.749mWB (I)

Here, β is the angle.

Write the expression for the weight acting on the system.

W=mg

Here, m is the mass, g is the acceleration due to gravity

Figure 2 represents a force triangle as shown in the above figure with its interior angles computed from the known directions of the forces. Then use the law of sines to find the unknown forces.

Write the expression for the law of sines from the force triangle.

Wsin(61.55°)=TCDsin(90β)°=Bsin(55°) (II)

Conclusion:

Substitute 1.5m for WB in equation I to find β.

tanβ=0.7497m1.5m=0.499β=tan1(0.499)=26.55°

Substitute 50kg for m and 9.81m/s2 in equation II to find g.

W=(50kg)(9.81m/s2)=490.5N

Substitute 490.5N for W, and 26.55° for β in equation III to find B and TCD.

490.5Nsin(61.55°)=TCDsin(9026.55)°=Bsin(55°)Wsin(61.55°)=TCDsin63.44°=Bsin(55°)490.50.879=TCD0.894=B0.819

Rearrange the above equation to find B.

490.50N×0.819=B×0.879B=457.01N

Therefore, reaction at B is 457N.

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Chapter 4 Solutions

VECTOR MECHANICS FOR ENGINEERS: STATICS

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