PROBLEM For the beam loaded as shown, do the following: 1. Determine the values of shear and moment at points where change in loads occur using the Area Method. Mark maximum values. 2.Draw the shear and moment diagram. Show computation. Mark the maximum values for V and M. 3. Solve the moment of inertia of the cross-section of the beam about the neutral axis. Show computation and box your answer. 4. Compute the maximum shear stress. 5. Compute the maximum tensile and compressive flexural stress. 6. Draw the elastic curve. 7. Write the moment equation for the entire beam. Place your answer in a box.
PROBLEM For the beam loaded as shown, do the following: 1. Determine the values of shear and moment at points where change in loads occur using the Area Method. Mark maximum values. 2.Draw the shear and moment diagram. Show computation. Mark the maximum values for V and M. 3. Solve the moment of inertia of the cross-section of the beam about the neutral axis. Show computation and box your answer. 4. Compute the maximum shear stress. 5. Compute the maximum tensile and compressive flexural stress. 6. Draw the elastic curve. 7. Write the moment equation for the entire beam. Place your answer in a box.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:PROBLEM
For the beam loaded as shown, do the following:
1. Determine the values of shear and moment at points where change in loads
occur using the Area Method. Mark maximum values.
2.Draw the shear and moment diagram. Show computation. Mark the maximum
values for V and M.
3. Solve the moment of inertia of the cross-section of the beam about the neutral
axis. Show computation and box your answer.
4. Compute the maximum shear stress.
5. Compute the maximum tensile and compressive flexural stress.
6. Draw the elastic curve.
7. Write the moment equation for the entire beam. Place your answer in a box.
8. Write the slope equation of the beam. Place your answer in a box.
9. Write the deflection equation. Place your answer in a box.
10. What is the deflection at the pin and at point D? Box your answer.
11. What is the slope of the elastic curve at point C?
12. What is the maximum shear stress of the fibers 10mm from the top?
6oku/m
20 kulm
A
3m
2m
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