For the loading shown, use the double-integration method to determine (a) the equation of the elastic curve for the cant

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For The Loading Shown Use The Double Integration Method To Determine A The Equation Of The Elastic Curve For The Cant 1 (44.89 KiB) Viewed 26 times

For The Loading Shown Use The Double Integration Method To Determine A The Equation Of The Elastic Curve For The Cant 2 (39.23 KiB) Viewed 26 times

For The Loading Shown Use The Double Integration Method To Determine A The Equation Of The Elastic Curve For The Cant 3 (44.89 KiB) Viewed 26 times

For the loading shown, use the double-integration method to determine (a) the equation of the elastic curve for the cantilever beam, (b) the deflection at the free end, and (c) the slope at the free end. Assume that El is constant for the beam. Let wo = 9 kN/m, L = 5.5 m, E = 185 GPa, and I = 135 x 106 mm wo . А B L Answer: (b) VA= - 10.9917 mm (c) A = -0.002498 rad
For the beam and loading shown, use discontinuity functions to compute (a) the slope of the beam at C (positive if counterclockwise and negative if clockwise). (b) the deflection of the beam at C. Assume LAB = 170 mm, LBc = 120 mm, Lcd = 100 mm, LDE = 230 mm, MB = 370 N-m, P = 2510 N and a constant value of El = 630 x 106 N-mm2 for the beam. Mg x B hol E с D Lo LAB LBC LDE Answers: (a) c = -0.0148 rad (b) Vc 7.48 mm
The simply supported beam consists of a W460 x 82 structural steel wide-flange shape [E = 200 GPa; 1 = 370 x 106 mm4]. For the loading shown, determine the beam deflection vc at point C. = Assume P = 63 kN, w = 23 kN/m, LAB = LBC = 3.9 m, LCD = 2 m. W TIVI B С LAB LBC LCD Answer: vc= mm.