Vector Mechanics for Engineers: Statics and Dynamics
Vector Mechanics for Engineers: Statics and Dynamics
12th Edition
ISBN: 9781259638091
Author: Ferdinand P. Beer, E. Russell Johnston Jr., David Mazurek, Phillip J. Cornwell, Brian Self
Publisher: McGraw-Hill Education
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Chapter 3.2, Problem 3.64P

In Prob. 3.55, determine the perpendicular distance between a line joining points O and D and the line of action of P.

Expert Solution & Answer
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To determine

The perpendicular distance between a line joining points O and D.

Answer to Problem 3.64P

The perpendicular distance between a line joining points O and D is d=9.50in.

Explanation of Solution

Refer the Problem 3.55

Write the expression for force P in terms of unit vector at line joining points E and H:

EH=(30in)i^(7.5in)j^+(10in)k^

The magnitude of the line joining points E and H is,

EH=(30in)2+(7.5in)2+(10in)2=32.5in

The unit vector at line joining points E and H is,

λEH=EHEH

Here, the unit vector at line joining points E and H is λEH.

Substitute (30in)i^(7.5in)j^+(10in)k^ for EH and 32.5in for EH.

λEH=(30in)i^(7.5in)j^+(10in)k^32.5in=0.923i^0.231j^+0.308k^

Write the equation of the moment of P about a line joining points E and H is

P=PλEH (I)

Here, the moment of force is P and the force.

Conclusion:

Substitute 520lb for P and 0.923i^0.231j^+0.308k^ for λEH in equation (I).

P=(520lb)(0.923i^0.231j^+0.308k^)=(480.0lb)i^(120.0lb)j^+(160.0lb)k^

Write the expression for force P in terms of unit vector at line joining points O and D:

OD=(30in)i^+(15in)j^+(10in)k^

The magnitude of the line joining points O and D is,

OD=(30in)2+(15in)2+(10in)2=35in

The unit vector at line joining points O and D is,

λOD=ODOD

Here, the unit vector at line joining points O and D is λOD.

Substitute (30in)i^+(15in)j^+(10in)k^ for OD and 35in for OD.

λOD=(30in)i^+(15in)j^+(10in)k^35in=0.857i^+0.429j^+0.286k^

Write the equation of the moment of P about a line joining points O and D is

Pparallel=PλOD (II)

Here, the perpendicular component contribute to the moment of force about the line OD is P

Substitute (480.0lb)i^(120.0lb)j^+(160.0lb)k^ for P and 0.857i^+0.429j^+0.286k^ for λOD in equation (II).

Pparallel=((480.0lb)i^(120.0lb)j^+(160.0lb)k^)(0.857i^+0.429j^+0.286k^)=411.4lb51.5lb+45.8lb=405.7lb

The relation between perpendicular and parallel component contribute to the moment of force is,

P2=Pparallel2+Pperpendicular2 (III)

Here, the parallel component of moment is Pparallel and perpendicular component of moment is Pperpendicular.

Rewrite the equation (III) to get Pperpendicular.

Pperpendicular=P2Pparallel2

Substitute 405.7lb for Pparallel and 520lb for P.

Pperpendicular=(520lb)2(405.7lb)2=325.28lb

Write the equation for the moment about a line joining points O and D.

MOD=d(P)perpendicular

Here, the moment about a line joining points O and D is MOD and the perpendicular distance is d.

Rewrite the relation in terms of d.

d=MOD(P)perpendicular

Refer the problem 77268-3.2-3.55P

The value of the moment line joining points F and B is MFB is 3090lbin

Substitute 3090lbin for MOD and 325.28lb for (P)perpendicular.

d=3090lbin325.28lb=9.50in

Therefore, the perpendicular distance between a line joining points O and D is d=9.50in.

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Chapter 3 Solutions

Vector Mechanics for Engineers: Statics and Dynamics

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