VECTOR MECHANICS FOR ENGINEERS: STATICS
VECTOR MECHANICS FOR ENGINEERS: STATICS
12th Edition
ISBN: 9781260912814
Author: BEER
Publisher: MCG
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Chapter 4.3, Problem 4.117P

Chapter 4.3, Problem 4.117P, PROBLEM 4.117 A 100-kg uniform rectangular plate is supported in the position shown by hinges A and

PROBLEM 4.117

A 100-kg uniform rectangular plate is supported in the position shown by hinges A and B and by cable DCE that passes over n frictionless hook at C. Assuming that the tension is the same in both parts of the cable, determine (a) the tension in the cable, (b) the reactions at A and B. Assume that the hinge at B does not exert any axial thrust.

(a)

Expert Solution
Check Mark
To determine

The tension on the cable.

Answer to Problem 4.117P

The tension on the cable is 345N.

Explanation of Solution

The tension in the cable DCE can be represented as TCD and TCE respectively. The total tension on the cable is given by T. The free body diagram of the given arrangement is given by Figure 1.

VECTOR MECHANICS FOR ENGINEERS: STATICS, Chapter 4.3, Problem 4.117P

Figure 1

The position vector of the point A from B is given as,

rB/A=(960180)i=780i

The position vector of the point A from G is given as,

rG/A=(960290)i+4502k=390i+225k

The position vector of the point C from A is given as,

rC/A=600i+450k

The vector CD is given as CD=690i+675j450k and the vector CE is given as CE=270i+675j450k.

The tension across the cable from D to C is given as,

TCD=TCDCD

Here, TCD is the tension across the cable from D to C, CD is the vector along the path of the points, CD is the magnitude of the vector.

Substitute 690i+675j450k for CD and 1065 for CD to get TCD.

TCD=T1065(690i+675j450k)

The tension across the cable from E to C is given as,

TCE=TCECE

Here, TCE is the tension across the cable from E to C, CE is the vector along the path of the points, CE is the magnitude of the vector.

Substitute 270i+675j450k for CE and 855 for CE to get TCE.

TCE=T855(270i+675j450k)

The weight is given as,

W=mgj

Here, W is the weight, m is the mass and g is the acceleration due to gravity.

Substitute 100kg for m and 9.81m/s2 for g.

W=(100kg)(9.81m/s2)j=(981N)j

The force on the point is zero. This means that the sum of the moments of the force will also be zero.

rC/A×TCD+rC/A×TCE+rG/A×W+rB/A×B=0

Here, B is the reaction at B.

Substitute the vector values and determine the cross product.

|ijk6000450690675450|T1065+|ijk6000450270675450|T855+|ijk390022509810|+|ijk780000ByBz|=0((675)(450)T1065(675)(450)T855+220.73×103)i+((690×450+600×450)T1065+(270×450+600×450)T855780Bz)j+((600×675)T1065+(600×675)T855382.59×103+780By)k=0 (I)

Conclusion:

Equate the coefficients of i in (I) and solve for T.

((675)(450)T1065(675)(450)T855+220.73×103)=0T((675)(450)1065+(675)(450)855)=220.73×103T=344.64N345N

Therefore, the tension on the cable is 345N.

(b)

Expert Solution
Check Mark
To determine

The reactions at A and B.

Answer to Problem 4.117P

The reactions at A and B are A=(114.454N)i+(377.30N)j+(141.496)k and B=(113.178N)j+(185.516 N)k respectively.

Explanation of Solution

The free body diagram of the given arrangement is given in Figure 1.

Equate the coefficients of j in (I) and solve for Bz by substituting 344.64N for T.

((690×450+600×450)344.64N1065+(270×450+600×450)344.64N855780Bz)=013106.028+157808.8421780Bz=0Bz=144702.8141780=185.516N (II)

Equate the coefficients of k in (I) and solve for By by substituting 344.64N for T.

((600×675)344.64N1065+(600×675)344.64N855382.59×103+780By)=0780By=382.59×103131060.28163250.53By=88279.19780=113.178N (III)

The net force acting on the point is zero.

A+B+TCD+TCE+W=0

Here, A is the reaction at the point A.

Substitute 113.178Nj+185.516 Nk for B, T1065(690i+675j450k) for TCD and T855(270i+675j450k) for TCE with 344.64N for T and (981N)j for W to get A.

(Axi+Ayj+Azk)+(113.178Nj+185.516 Nk)+344.64N1065(690i+675j450k)+(344.64N855(270i+675j450k))+(981N)j=0 (IV)

Equate the coefficients of i in (IV) and solve for Ax.

Ax6901065(344.64)+270855(344.64)=0Ax=114.454N (V)

Equate the coefficients of j in (IV) and solve for Ay.

Ay+113.178+6751065(344.64)+675855(344.64)981=0Ay=377.30N (VI)

Equate the coefficients of k in (IV) and solve for Az.

Az+185.5164501065(344.64)450855(344.64)=0Az=141.496N (VII)

Conclusion:

From (II) and (III) the vector B is given as,

B=(113.178N)j+(185.516 N)k

And, from (V), (VI) and (VII) the vector A is given as,

A=(114.454N)i+(377.30N)j+(141.496)k

Therefore, the reactions at A and B are A=(114.454N)i+(377.30N)j+(141.496)k and B=(113.178N)j+(185.516 N)k respectively

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Chapter 4 Solutions

VECTOR MECHANICS FOR ENGINEERS: STATICS

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