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Calculate the reactionsnbsp derive equations for shear and


Problem 1: Given the figure below,

1438_magnitude and location of the maximum absolute.jpg

Calculate the reactions

Derive equations for shear and moment

Draw the complete shearing force and moment diagrams,

And determine the magnitude and location of the maximum absolute value of the shearing force and bending moment.

Problem 2: Given the figure below,

784_magnitude and location of the maximum absolute value 1.jpg

Calculate the reactions,

Derive equations for shear and moment

Draw the complete shearing force and moment diagrams,

And determine the magnitude and location of the maximum absolute value of the shearing force and bending moment.

Problem 3: Design a wide flange, simply supported beam below so that the stress due to bending does not exceed that allowed by AISC for A36 steel.

885_Design a wide flange.jpg

Problem 4: A plate is welded to structural tube to form the section shown below. Calculate the shear where the parts join as indicated. Maximum V = 10,000lb.

2464_Calculate shear stress.jpg

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Anonymous user

5/24/2016 1:35:17 AM

In order to complete the following assignment, you have to consider the circuit diagrams for each question and on that basis solve it by providing the appropriate answers. Question 1: Figure illustrated. Compute the reactions. Derive equations for the shear and moment. Sketch the complete shearing force and moment diagrams. And find out the magnitude and location of the maximum absolute value of the shearing force and bending moment. Question 2: Figure illustrated. Compute the reactions. Derive the equations for shear and moment. Sketch the complete shearing force and moment diagrams. And find out the magnitude and location of the maximum absolute value of the shearing force and bending moment. Question 3: Design a broad flange, simply supported beam below in such a way that the stress because of bending doesn’t exceed that allowed via AISC for A36 steel.