For the image above, find the shear force and bending moment diagram. Show calcs for all your work. Assume a distance A of 1.5 m, a point load P = 40 kN, and a distributed load w of 5 kN/m. Enter the maximum positive moment b) If the beam has an moment of inertia, Ix = 400 x 106 mm4 , and the total distance between the top and bottom edges of the beam is 320mm, determine the maximum compressive stress that occurs at the bottom edge of the beam. Assume the centroid is in the middle of the beam
For the image above, find the shear force and bending moment diagram. Show calcs for all your work. Assume a distance A of 1.5 m, a point load P = 40 kN, and a distributed load w of 5 kN/m. Enter the maximum positive moment b) If the beam has an moment of inertia, Ix = 400 x 106 mm4 , and the total distance between the top and bottom edges of the beam is 320mm, determine the maximum compressive stress that occurs at the bottom edge of the beam. Assume the centroid is in the middle of the beam
Steel Design (Activate Learning with these NEW titles from Engineering!)
6th Edition
ISBN:9781337094740
Author:Segui, William T.
Publisher:Segui, William T.
Chapter4: Compression Members
Section: Chapter Questions
Problem 4.6.7P
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a) For the image above, find the shear force and bending moment diagram. Show calcs for all your work. Assume a distance A of 1.5 m, a point load P = 40 kN, and a distributed load w of 5 kN/m. Enter the maximum positive moment
b) If the beam has an moment of inertia, Ix = 400 x 106 mm4 , and the total distance between the top and bottom edges of the beam is 320mm, determine the maximum compressive stress that occurs at the bottom edge of the beam. Assume the centroid is in the middle of the beam (ctop =cbot)
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