Exam Details
Subject | Advanced Structural Analysis | |
Paper | ||
Exam / Course | B.Tech Civi Engg. (BTCLEVI)/B.Tech Electronics And Communication Engg. (BTECVI) | |
Department | School of Engineering & Technology (SOET) | |
Organization | indira gandhi national open university | |
Position | ||
Exam Date | June, 2016 | |
City, State | new delhi, |
Question Paper
No. of Printed Pages: 4 IBICEE-OI7I
B.Tech. CIVIL ENGINEERING (BTCLEVI)
Term-End Examination
June, 2016
00246
BICEE-O17 ADVANCED STRUCTURAL ANALYSIS
Time hours Maximum Marks: 70
Note: Attempt any five questions. Assume any missing data suitably.
1. Develop the stiffness and flexibility matrices for the beam shown in Figure . Verify that two matrices are reciprocal of each other. <img src='./qimages/10939-1.jpg'>
Also differentiate between flexibility and stiffness matrices.
2. Analyse the continuous beam ABCD as shown in Figure by stiffness method. The beam has an internal hinge at B. (EI is constant) <img src='./qimages/10939-2.jpg'>
3. Analyse the pin jointed frame as shown in Figure by flexibility method. The numbers in brackets are in mm^2 . If the member L1 U2 of the frame is too long by 3 mm, determine the forces in the members of the frame due to self-straining only. Take E 200 kN/mm2 . <img src='./qimages/10939-3.jpg'>
4. Analyse the frame shown in Figure by direct stiffness method. Ignore axial deformations for the frame. <img src='./qimages/10939-4.jpg'>
5. Analyse the building frame shown in Figure by cantilever method, assuming that all the columns have the same area of cross-section. <img src='./qimages/10939-5.jpg'>
6. Analyse the bent frame as shown in Figure 6 by flexibility method. (EI is constant) <img src='./qimages/10939-6.jpg'>
7. Write the steps for development of structural global matrix for a pin jointed frame by stiffness method. How can you find the forces in the members?
B.Tech. CIVIL ENGINEERING (BTCLEVI)
Term-End Examination
June, 2016
00246
BICEE-O17 ADVANCED STRUCTURAL ANALYSIS
Time hours Maximum Marks: 70
Note: Attempt any five questions. Assume any missing data suitably.
1. Develop the stiffness and flexibility matrices for the beam shown in Figure . Verify that two matrices are reciprocal of each other. <img src='./qimages/10939-1.jpg'>
Also differentiate between flexibility and stiffness matrices.
2. Analyse the continuous beam ABCD as shown in Figure by stiffness method. The beam has an internal hinge at B. (EI is constant) <img src='./qimages/10939-2.jpg'>
3. Analyse the pin jointed frame as shown in Figure by flexibility method. The numbers in brackets are in mm^2 . If the member L1 U2 of the frame is too long by 3 mm, determine the forces in the members of the frame due to self-straining only. Take E 200 kN/mm2 . <img src='./qimages/10939-3.jpg'>
4. Analyse the frame shown in Figure by direct stiffness method. Ignore axial deformations for the frame. <img src='./qimages/10939-4.jpg'>
5. Analyse the building frame shown in Figure by cantilever method, assuming that all the columns have the same area of cross-section. <img src='./qimages/10939-5.jpg'>
6. Analyse the bent frame as shown in Figure 6 by flexibility method. (EI is constant) <img src='./qimages/10939-6.jpg'>
7. Write the steps for development of structural global matrix for a pin jointed frame by stiffness method. How can you find the forces in the members?
Other Question Papers
Departments
- Centre for Corporate Education, Training & Consultancy (CCETC)
- Centre for Corporate Education, Training & Consultancy (CCETC)
- National Centre for Disability Studies (NCDS)
- School of Agriculture (SOA)
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- School of Continuing Education (SOCE)
- School of Education (SOE)
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Subjects
- Advance Surveying
- Advanced Design Of Foundation
- Advanced Environmental Engineering
- Advanced Structural Analysis
- Bachelor Of Technology (Ce)
- Building Technology -I
- Civil Engineering
- Computational Methods In Structural Engineering
- Earth And Rock Fill Dam Engineering
- Elements of Engineering Science
- Engineering Geology
- E n v i r o n m e n t a l E n g i n e e r i n g I I
- Environmental Engineering-I
- Estimation And Construction Management
- Geoinformatics
- Geotechnical Engineering - II
- Mathematics-III
- Pavement Evaluation
- Quantity Surveying and Costing
- Reliability And Optimization Of Structures
- Structural Analysis - II
- Structural Analysis - III
- Structural Analysis I
- Structural Design And Drawing - I
- Structural Design And Drawing - II
- Surveying
- Traffic Engineering
- Transportation Engg. II
- Transportation Engineering - I
- Transportation Planning
- Water Resources Engineering
- Water Resources System Planning And Design