Engineering Mechanics: Statics
Engineering Mechanics: Statics
13th Edition
ISBN: 9780132915540
Author: Russell C. Hibbeler
Publisher: Prentice Hall
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Chapter 2.9, Problem 25FP

Determine the angle θ between the force and the line AO.

Chapter 2.9, Problem 25FP, Determine the angle  between the force and the line AO. Prob. F2-25

Prob. F2-25

Expert Solution & Answer
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To determine
The angle θ between the force and the line AO.

Answer to Problem 25FP

The angle θ between the force and the line AO is 57.72°_.

Explanation of Solution

Given:

The force in the form of Cartesian vector, F={6i+9j+3k}.

Explanation:

Draw the free body diagram of forces F and line AO as in Figure (1).

Engineering Mechanics: Statics, Chapter 2.9, Problem 25FP

Let us establish a position vector for points A and O. The coordinate points A(1,2,2)m and point O (0,0,0) m.

Express the position vector r in the direction of AO using Figure (1).

rAO=(xOxA)i+(yOyA)j+(zOzA)k (I)

Here, the coordinates of A and O are xA,xO,yA,yO,zA,andzO respectively.

Express the magnitude of the direction of AO.

rAO=(xOxA)2+(yOyA)2+(zOzA)2 (II)

Express the force in Cartesian vector form.

F={6i+9j+3k}

Express the magnitude of the direction of F.

F=(6)2+(9)2+(3)2=36+81+9=11.22kN

Determine the unit vector of AO.

uAO=(rAOrAO) (III)

Apply the dot product to find the angle between F and line AO.

uAOF=rAOFcosθθ=cos1(uAOF)F (IV)

Conclusion:

Substitute 1 m for xA, ­2 m for yA, 2 m for zA, 0 for xO, 0 for yO, and 0 m for zO in Equation (I).

rAO=(01)i+(0(2))j+(02)k=i+2j2k

Substitute 1 m for xA, ­2 m for yA, 2 m for zA, 0 for xO, 0 for yO, and 0 m for zO in Equation (II).

rAO=(01)2+(0(2))2+(02)2=1+4+4=3m

Substitute i+2j2k for rAO and 3 m for rAO in Equation (III).

uAO=(i+2j2k3m)=13i+23j23k

Substitute 13i+23j23k for uAO, {6i+9j+3k} for F, and 11.22 kN for F in Equation (IV).

θ=cos1({13i+23j23k}m{6i+9j+3k}kN)(11.22kN)=cos1(2+62)11.22=cos10.534=57.72°

Thus, the angle θ between the force F and the line AO is 57.72°_.

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Chapter 2 Solutions

Engineering Mechanics: Statics

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