VECTOR MECHANICS FOR ENGINEERS W/CON >B
VECTOR MECHANICS FOR ENGINEERS W/CON >B
12th Edition
ISBN: 9781260804638
Author: BEER
Publisher: MCG
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Chapter 4, Problem 4.152RP

(a)

To determine

The tension in the cable.

(a)

Expert Solution
Check Mark

Answer to Problem 4.152RP

The tension in the cable is 49.5 lb .

Explanation of Solution

The free-body diagram is shown in figure 1.

<x-custom-btb-me data-me-id='1725' class='microExplainerHighlight'>VECTOR</x-custom-btb-me> MECHANICS FOR ENGINEERS W/CON >B, Chapter 4, Problem 4.152RP

Write the expression for the tension in the cable.

T=TEFEF (I)

Here, T  is the tension in the cable and T is the magnitude of T .

Write the expression of the vector EF .

EF=(8 in)i^+(25 in)j^(20 in)k^ (II)

Find the magnitude of the vector EF .

EF=(8 in)2+(25 in)2+(20 in)2=33 in (III)

Put equations (II) and (III) in equation (I).

T=T(8 in)i^+(25 in)j^(20 in)k^33 in=T33(8i^+25j^20k^) (IV)

Write the expressions for the position vectors.

rB/A=(388)i^=30i^rE/A=(304)i^+20k^=26i^+20k^rG/A=382i^+10k^=19i^+10k^ (V)

Here, rB/A , rE/A and rG/A are position vectors.

Sum of the moments of the forces about the point A must be zero.

ΣMA=0 (VI)

Here, ΣMA is the sum of the moments of forces about the point A.

Write the expression for the sum of the moments about the point A.

ΣMA=rE/A×T+rG/A×(75j^)+rB/A×B

Here, B is the reaction at the point B.

Put the above equation in equation (VI) and use determinants.

rE/A×T+rG/A×(75j^)+rB/A×B=0|i^j^k^2602082520|T33+|i^j^k^190100750|+|i^j^k^30000ByBz|=0 (VII)

Conclusion:

Equate the coefficient of i^ in equation (VII) to zero.

(25)(20)T33+750=0T=(750)(33)500=49.5 lb

Thus, the tension in the cable is 49.5 lb .

(b)

To determine

The reactions at A and B.

(b)

Expert Solution
Check Mark

Answer to Problem 4.152RP

The reaction at A is (12.00 lb)i^+(22.5 lb)j^(4.00 lb)k^ and the reaction at B is (15.00 lb)j^+(34.0 lb)k^.

Explanation of Solution

Equate the coefficient of j^ in equation (VII) to zero.

(160+520)T3330Bz=0

Here, Bz is the z component of B .

Substitute 49.5 lb for T in the above equation to find Bz .

(160+520)49.5 lb3330Bz=0Bz=(680)49.5 lb(33)(30)=34 lb

Equate the coefficient of k^ in equation (VII) to zero.

(26)(25)T331425+30By=0

Here, By is the y component of B .

Substitute 49.5 lb for T in the above equation to find By .

By=130(1425(26)(25)49.5 lb33)=15 lb

Write the expression for B.

B=Byj^+Bzk^

Substitute 34 lb for Bz and 15 lb for By in the above equation to find B .

B=(15 lb)j^+(34 lb)k^

Refer figure 1.

The net force must be equal to zero.

ΣF=0 (VIII)

Here, ΣF is the net force.

Write the expression for the net force.

ΣF=A+B+T(75 lb)j^

Here, A is the reaction at the point A.

Put the above equation in equation (VIII).

A+B+T(75 lb)j^=0(Axi^+Ayj^+Azk^)+(Byj^+Bzk^)+(Txi^+Tyj^+Tzk^)(75 lb)j^=0(Axi^+Ayj^+Azk^)+(15 lb)j^+(34 lb)k^+49.5 lb33(8i^+25j^20k^)(75 lb)j^=0 (IX)

Equate the coefficient of i^ in equation (IX) to zero.

Ax+833(49.5)=0Ax=12.00 lb

Equate the coefficient of j^ in equation (IX) to zero.

Ay+15+2533(49.5)75=0Ay=75152533(49.5)=22.5 lb

Equate the coefficient of k^ in equation (IX) to zero.

Az+342033(49.5)=0Az=2033(49.5)34=4.00 lb

Write the expression of A .

A=(12.00 lb)i^+(22.5 lb)j^(4.00 lb)k^

Conclusion:

Thus, the reaction at A is (12.00 lb)i^+(22.5 lb)j^(4.00 lb)k^ and the reaction at B is (15.00 lb)j^+(34.0 lb)k^.

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Chapter 4 Solutions

VECTOR MECHANICS FOR ENGINEERS W/CON >B

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