Explanation Given: The magnitude of force in the direction of CO , F = 80 lb . Show the magnitude of force F with coordinates of points A , B, and C as in Figure (1). Establish a position vector from A to B . The coordinates of the tail A ( 3 , − 2 , 0 ) ft are subtracted from the coordinates of the head B ( 0 , 0 , 6 ) ft . Express the position vector r in the direction of AB using Figure (1). r A B = ( x B − x A ) i + ( y B − y A ) j + ( z B − z A ) k (I) Here, the coordinates of A and B are x A , x B , y A , y B , z A , and z B respectively. Express the position vector r in the direction of CB using Figure (1). r C B = 1 2 r A B (II) Express the position vector r in the direction of CO . r C O = r B O + r C B (III) Here, the position vector r in the direction of BO is r B O . Write the position vector r in the direction of BO . r B O = { − 6 k } ft Express the force F C O in Cartesian vector form and determine the position vector r which is directed from point C to point O . F C O = F C O u C O = F C O ( r C O r C O ) (IV) Here, the unit vector in the direction of CO is u C O , the position vector in the direction of CO is r C O , and the magnitude of the position vector in the direction of CO is r C O . Conclusion: Substitute 0 for x B , 3 ft for x A , 0 for y B , 2 ft for y A , 6 ft for z B , and 0 for z A in Equation (I). r A B = { ( 0 − 3 ) i + ( 0 − ( − 2 ) ) j + ( 6 − 0 ) k } ft = { − 3 i + 2 j + 6 k } ft Substitute { − 3 i + 2 j + 6 k } ft for r A B in Equation (II)

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ISBN: 9781323327067

Author: HIBBELER

Publisher: PEARSON C

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Chapter 2.8, Problem 98P

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The expression of force F in Cartesian vector form.

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Chapter 2.8, Problem 97P

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The expression of force F in Cartesian vector form.

Solution Summary: The author explains the expression of force F in Cartesian vector form with coordinates of points A, B, and C.

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