For the beam and loading shown, use the double-integration method to determine (a) the equation of the elastic curve for the cantilever beam, (b) the deflection at B, (c) the deflection at the free end, and (d) the slope at the free end. Assume that El is constant for the beam. Let w = 15 kN/m, L = 3.5 m, E = 185 GPa, and I = 110 x 106 mm4
For the beam and loading shown, use the double-integration method to determine (a) the equation of the elastic curve for the cantilever beam, (b) the deflection at B, (c) the deflection at the free end, and (d) the slope at the free end. Assume that El is constant for the beam. Let w = 15 kN/m, L = 3.5 m, E = 185 GPa, and I = 110 x 106 mm4
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 9.7.7P: The tapered cantilever beam AB shown in the figure has a thin-walled, hollow circular cross sections...
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For the beam and loading shown, use the double-integration method to determine (a) the equation of the elastic curve for the cantilever beam, (b) the deflection at B, (c) the deflection at the free end, and (d) the slope at the free end. Assume that EI is constant for the beam. Let w = 15 kN/m, L = 3.5 m, E = 185 GPa, and I = 110 x 106 mm4
Transcribed Image Text:For the beam and loading shown, use the double-integration method to determine (a) the equation of the elastic curve for the
cantilever beam, (b) the deflection at B, (c) the deflection at the free end, and (d) the slope at the free end. Assume that El is constant
for the beam. Let w = 15 kN/m, L = 3.5 m, E = 185 GPa, and I = 110 x 106 mm4
A
B
L/2
Answer:
(b) VB =
mm
(c) vc =
mm
rad
(d) Oc =
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