Explanation Concept used: Redraw the diagram, Here, point G is the center of gravity of the plate. Write the coordinate of point A as ( 4 , 0 , 0 ) in . Write the coordinate of point G as ( 19 , 0 , 10 ) in . Write the expression for position vector of point G with respect to point A. r → = ( ( 19 − 4 ) i ^ + ( 10 − 0 ) k ^ ) in = ( 15 i ^ + 10 k ^ ) in Here, r → is the position vector of point G with respect to point A. Write the coordinate of point B as ( 34 , 0 , 0 ) in . Write the expression for position vector of point B with respect to point A. r → B = 30 i ^ in Here, r → B is the position vector of point B with respect to point A. Write the coordinate of point E as ( 30 , 0 , 20 ) in . Write the expression for position vector of point E with respect to point A. r → E = ( 26 i ^ + 20 k ^ ) in Here, r → E is the position vector of point E with respect to point A. Write the coordinate of point F as ( 38 , 25 , 0 ) in . Write the expression for position vector of point F with respect to point E. r → F E = ( 38 − 30 ) i ^ + ( 25 − 0 ) j ^ + ( 0 − 20 ) k ^ = ( 8 i ^ + 25 j ^ − 20 k ^ ) in Here, r → F E is the position vector of point F with respect to point E. Write the expression for unit vector along point E to point F. r ^ F E = r → F E | r → F E | Here, r ^ F E is the unit vector along point E to point F and | r → F E | is the magnitude of r → F E . Substitute ( 8 i ^ + 25 j ^ − 20 k ^ ) in for r → F E in above equation. r ^ F E = ( 8 i ^ + 25 j ^ − 20 k ^ ) ( 8 ) 2 + ( 25 ) 2 + ( − 20 ) 2 = ( 8 i ^ + 25 j ^ − 20 k ^ ) 33 = ( 0.242 i ^ + 0.757 j ^ − 0.606 k ^ ) Write the expression for tension in vector form in cable EF. T → E F = T ⋅ r ^ F E Here, T → E F is the tension in vector form in cable EF and T is the magnitude of tension in the cable EF. Substitute ( 0.242 i ^ + 0.757 j ^ − 0.606 k ^ ) for r ^ F E in above equation. T → E F = T ⋅ ( 0.242 i ^ + 0.757 j ^ − 0.606 k ^ ) = ( 0.242 T i ^ + 0.757 T j ^ − 0.606 T k ^ ) Write the expression for force due to weight of plate in vector form. F → = ( − 75 j ^ ) lb Here, F → is the force due to weight of plate in vector form. Write the expression for force vector at point B. F → B = F B y j ^ + F B z k ^ ....... (1) Here, F → B is the force vector at point B, F B y is the magnitude of force in y-direction and F B z is the magnitude of force in z-direction. Write the expression for resultant force. R → = F → A + F → B + T → E F + F → ....... (2) Here, R → is the resultant force, F → A is the reaction at support A. Write the expression for moment due force F → B about point A. M → B = r → B × F → B ....... (3) Here, M → B is the moment due to force F → B about point A. Write the expression for moment due force T → E F about point A. M → E = r → E × T → E F To determine (b) Reaction at support A and B.

2nd Edition

ISBN: 9780073398167

Author: Ferdinand P. Beer, E. Russell Johnston Jr., John T. DeWolf, David Mazurek

Publisher: McGraw-Hill Education

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Chapter 4.3, Problem 67P

To determine

(a)

The tension in the cable EF.

To determine

(b)

Reaction at support A and B.

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Chapter 4.3, Problem 66P

Chapter 4.3, Problem 68P

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(a) The tension in the cable EF.

Solution Summary: The author explains the tension in the cable EF and the expression for position vector of point G with respect to point A.