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A singly reinforced beam of dimension 200 x 350 is reinforced with 3-25mm at the bottom. If the concrete has a compressive strength of 17MPa and the steel has a yield strength of 415 MPa, determine if the beam can carry a uniform distributed load of18 kN/m dead load. The beam has a length of 5m with 40mm concrete clear cover, 10mm enclosed stirrups, and Es = 200 GPa. Use LRFD in the analysis. QUESTIONS: 1.What is the effective depth of the given beam. (1 decimal) 2.What value of ?1 should you use in the computation. (2decimals) 3.What is the value of the steel reinforcement ratio if a balanced condition is assumed. (4decimals)

A singly reinforced beam of dimension 200 x 350 is reinforced with 3-25mm at the bottom. If the concrete has a compressive strength of 17MPa and the steel has a yield strength of 415 MPa, determine if the beam can carry a uniform distributed load of18 kN/m dead load. The beam has a length of 5m with 40mm concrete clear cover, 10mm enclosed stirrups, and Es = 200 GPa. Use LRFD in the analysis. QUESTIONS: 1.What is the effective depth of the given beam. (1 decimal) 2.What value of ?1 should you use in the computation. (2decimals) 3.What is the value of the steel reinforcement ratio if a balanced condition is assumed. (4decimals)

Structural Analysis
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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Question

A singly reinforced beam of dimension 200 x 350 is reinforced with 3-25mm at the bottom. If the concrete has a compressive strength of 17MPa and the steel has a yield strength of 415 MPa, determine if the beam can carry a uniform distributed load of18 kN/m dead load. The beam has a length of 5m with 40mm concrete clear cover, 10mm enclosed stirrups, and Es = 200 GPa. Use LRFD in the analysis.

QUESTIONS:

1.What is the effective depth of the given beam. (1 decimal)

2.What value of ?1 should you use in the computation. (2decimals)

3.What is the value of the steel reinforcement ratio if a balanced condition is assumed. (4decimals)

4.What is the actual steel reinforcement ratio of the given beam. (4 decimals)

5.What type of failure will occur?

6.What is the value of the compression block? You will get two values, use the positive. (4 decimals)

7.Given your answer in Numbers 5 and 6, what value of fs you should use? (4 decimals)

8.What is the nominal strength of the given section? (4decimals)

9.What is the maximum moment applied to the beam? (2decimals)

10.Considering LRFD, what is the factored load to be carried by the beam? (2 decimals)

11.Considering LRFD, what is the reduced capacity of the section? (4 decimals)

12.Can the section sustain the given loads?

 

QUESTIONS: 1. What is the effective depth of the given beam. (1 decimal) 2. What value of 31 should you use in the computation. (2 decimals) 3. What is the value of the steel reinforcement ratio if a balanced condition is assumed. (4 decimals) 4. What is the actual steel reinforcement ratio of the given beam. (4 decimals) 5. What type of failure will occur? 6. What is the value of the compression block? You will get two values, use the positive. (4 decimals) 7. Given your answer in Numbers 5 and 6, what value of fs you should use? (4 decimals) 8. What is the nominal strength of the given section? (4 decimals) 9. What is the maximum moment applied to the beam? (2 decimals) 10. Considering LRFD, what is the factored load to be carried by the beam? (2 decimals) 11. Considering LRFD, what is the reduced capacity of the section? (4 decimals) 12. Can the section sustain the given loads?
Transcribed Image Text:QUESTIONS: 1. What is the effective depth of the given beam. (1 decimal) 2. What value of 31 should you use in the computation. (2 decimals) 3. What is the value of the steel reinforcement ratio if a balanced condition is assumed. (4 decimals) 4. What is the actual steel reinforcement ratio of the given beam. (4 decimals) 5. What type of failure will occur? 6. What is the value of the compression block? You will get two values, use the positive. (4 decimals) 7. Given your answer in Numbers 5 and 6, what value of fs you should use? (4 decimals) 8. What is the nominal strength of the given section? (4 decimals) 9. What is the maximum moment applied to the beam? (2 decimals) 10. Considering LRFD, what is the factored load to be carried by the beam? (2 decimals) 11. Considering LRFD, what is the reduced capacity of the section? (4 decimals) 12. Can the section sustain the given loads?
WDL = 18 kN/m L = 5 m
Transcribed Image Text:WDL = 18 kN/m L = 5 m
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