Explanation Given: The given diagram is, Here, O is the origin. The radius of the cylinder is half of the diameter is 30 mm . Concept used: Write the coordinate of point C as ( 0 , 30 , 30 ) mm . Write the coordinate of point A as ( 0 , 140 , 0 ) mm . Write the expression for position vector of point A with respect to point C. r → A = ( 0 − 0 ) i ^ + ( 140 − 30 ) j ^ + ( 0 − 30 ) k ^ = 110 j ^ − 30 k ^ Here, r → A is the position vector of point A with respect to point C. Write the coordinate of point B as ( 20 , 140 , 0 ) mm . Write the expression for position vector of point B with respect to point C. r → B = ( 20 − 0 ) i ^ + ( 140 − 30 ) j ^ + ( 0 − 30 ) k ^ = ( 20 i ^ + 110 j ^ − 30 k ^ ) mm Here, r → B is the position vector of point B with respect to point C. Write the coordinate of point D as ( 30 , 60 , 0 ) mm . Write the expression for position vector of point D with respect to point C. r → D = ( 30 − 0 ) i ^ + ( 60 − 30 ) j ^ + ( 0 − 30 ) k ^ = ( 30 i ^ + 30 j ^ − 30 k ^ ) mm Here, r → D is the position vector of point D with respect to point C. Write the expression for force vector at point A. F → A = − 17 j ^ N Here, F → A is the force vector at point A. Write the expression for force vector at point B. F → B = − 12 j ^ N Here, F → B is the force vector at point B. Write the expression for force vector at point C. F → C = − 16 k ^ N Here, F → C is the force vector at point C. Write the expression for force vector at point D. F → D = − 21 i ^ N Here, F → D is the force vector at point D. Write the expression for resultant force. R → = F → A + F → B + F → C + F → D …… (1) Write the expression for moment due to force F → A about point C. M → A = r → A × F → A …… (2) Here, M → A is the moment due to force F → A about point C. Write the expression for moment due to force F → B about point C. M → B = r → B × F → B …… (3) Here, M → B is the moment due to force F → B about point C. Write the expression for moment due to force F → C about point C. M → C = r → C × F → C Here, M → C is the moment due to force F → C about point C. Write the expression for moment due to force F → D about point C. M → D = r → D × F → D …… (4) Here, M → D is the moment due to force F → D about point C. Write the expression for total moment about point C

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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 3.4, Problem 86P

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Airplanes A and B, flying at constant velocity and at the same altitude, are tracking the eye of hurricane C. The relative velocity of C with respect to A is 300 kph 65.0° South of West, and the relative velocity of C with respect to B is 375 kph 50.0° South of East. A 120.0 km B 1N 1. Determine the relative velocity of B with respect to A. A ground-based radar indicates that hurricane C is moving at a speed of 40.0 kph due north. 2. Determine the velocity of airplane A. 3. Determine the velocity of airplane B. Consider that at the start of the tracking expedition, the distance between the planes is 120.0 km and their initial positions are horizontally collinear. 4. Given the velocities obtained in items 2 and 3, should the pilots of planes A and B be concerned whether the planes will collide at any given time? Prove using pertinent calculations. (Hint: x = x + vt) 0

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Chapter 3 Solutions

Statics and Mechanics of Materials

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