Exercise 3:For the simply supported beam shown in Figure 3, calculate the reactions atsupports.10 KN5KN15KNcD 300 E1 m*+1 m xДжFigure 3PXFor the simply supported beam shown in Figure 3, calculate the Axial Force (N) atall the sections (A-E) of the beam shown in this figure.Plot the Axial Force (N) diagram by using the results obtained at Q5 above.For the simply supported beam shown in Figure 3, calculate the Shear Force (V) atall the sections (A-E) of the beam shown in this figure.Plot the Shear Force (V) diagram by using the results obtained at Q7 above.For the simply supported beam shown in Figure 3, calculate the Bending Moment(M) at all the sections (A-E) of the beam shown in this figure.Plot the Bending Moment (M) diagram by using the results obtained at Q9 above.in theresultMomby us

Answered: Exercise 3: For the simply supported…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Q2: For the cantilever beam Shown in Figure 2. Use the data from Table 2. Find the following: I. II. III. The bending moment at B Draw the shear force and bending moment diagrams for the beam The reaction at fixed end Rcy The reaction at the fixed end Mc The shear force at B IV. V. 5kN/m 40 kN A В 2m 2m Figure 2
The magnitude of reaction force at joint C of the hinge-beam shown in the figure is (round off to 2 decimal places)
(3) Use Three Moment Equation Method to compute the support reactions of the beam loaded as shown 600 N R₁ im 3m 800 N/m Ra 1200 Nm am 4 R3
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Reactions have been calculated for the beam AB shown in the figure. The shear force at location X (4m to the right of A) is most nearly equal to 6kN 3kN/m A i B VA = 8.4kN Vg = 9.6kN 4m 2m 4m 2m 2m
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Subject structuur
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