For the cantilever steel beam [E = 230 GPa; 1= 86 x 106 mm4], use the double-integration method to determine the deflection vg at B. Assume L = 3.3 m, Mo = 79 kN-m, and w = 11 kN/m. "| A Answer: VB = i W L mm. B X Mo

For the cantilever steel beam [E = 230 GPa; 1= 86 x 106 mm4], use the double-integration method to determine the deflection vg at B. Assume L = 3.3 m, Mo = 79 kN-m, and w = 11 kN/m. "| A Answer: VB = i W L mm. B X Mo

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter9: Deflections Of Beams

Section: Chapter Questions

Problem 9.5.5P: A cantilever beam of a length L = 2.5 ft has a rectangular cross section {b = 4in,, h = Sin,) and...

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For the cantilever steel beam [E = 180 GPa:=94 x 10 mmil. use the double-integration method to determine the deflection vg at B. Assume L = 2.1 m, Mo=79 kN-m, and w= 10 kN/m. Answer: Vg= mm.
L by the double integeration method. E = 200 GPa , I = 20 X10ʻmm“, and L = 3.0 m._Extra points will be added if you also model it using RISA-2D software. Send me the model file, the deflected shape in a PDF file Compute the values of slope and deflection for the beam shown below at x = with the maximum deflection values, and a screenshot (image) for the deflection value at the pointL shown on the deflected shape. 350 KN/m 70 KN/m 400 KN.m
For the cantilever steel beam [E = 180 GPa; / = 102 x 106 mm4], use the double- integration method to determine the deflection vg at B. Assume L = 3.8 m, Mo = 68 kN-m, and w = 17 kN/m. Answer: VB i mm. W Save for Later L eTextbook and Media Attempto unlimit Mo