Explanation Given: Length of boom is 12 ft . Tension in cable is 380 lb . Concept used: Draw the diagram to illustrate the force acting at point B. Write the expression for the position vector for point B with respect to A. d → A B = ( 12 i ^ + 0 j ^ + 0 k ^ ) ft Here, d → A B is the position vector for point B with respect to A. Write the expression for the position vector for point C with respect to B. d → B C = ( − 12 i ^ + 4.8 j ^ − 8 k ^ ) ft Here, d → B C is the position vector for point C with respect to B. Write the expression for the magnitude of position vector for point C with respect to B. | d B C | = ( − 12 ) 2 + ( 4.8 ) 2 + ( − 8 ) 2 = 231.04 = 15.2 ft Here, | d B C | is the magnitude of position vector for point C with respect to B. Write the expression for unit vector along line BC. n ^ B C = d → B C | d B C | ......(1) Here, n ^ B C is the unit vector along line BC. Write the expression for representation of tension in vector. T → = | T | ⋅ n ^ B C ......(2) Here, T → is the representation of tension in vector and | T | is the magnitude of applied force. Write the expression for moment about point A. M A = d → A B × T → ......(3) Here, M A is the moment about point A. Calculation: Substitute ( − 12 i ^ + 4.8 j ^ − 8 k ^ ) ft for d → B C and 15

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ISBN: 9780073398167

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

Publisher: McGraw-Hill Education

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Chapter 3.1, Problem 17P

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The moment about A due to tension in cable acting at point B.

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Statics and Mechanics of Materials

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