5. The number of unknowns for the frame shown using slope deflection method is... Assume A, B and D are fixed and interior hinge at C A. Two B. Four C. Six D. Eight E. None of the above 10 kN B Qc 4m A 3m + + 3m 3m 6. 7. The slope-deflection method was originally developed by Heinrich Manderla and Otto Mohr for the purpose of studying. A. secondary stresses in trusses B. secondary stresses in beams and frames C. Indeterminate beams and frames analysis D. Determinate beams and frames analysis E. None of the above In structures that have non-parallel end members, the displacement of the members will be..... A. Similar B. Different C. Proportional D. Zero E. None of the above. 8. The magnitude of the fix end moment at A 4k/ft using slope deflection method equals to pin exfix ...........k. ft. A. 25 B. -25 C. 40 D. -40 E. None of the above. A roller 15 ft- 12 f The magnitude of MBC for the frame shown in question number 3 using slope deflection method equals Assume El constant for all members. A. 4/9 El 88 +0.3 A 9. to B. -4/9 El 88.0.3 A C. 4/9 El 8B D. -4/9 El OB E. None of the above

5. The number of unknowns for the frame shown using slope deflection method is... Assume A, B and D are fixed and interior hinge at C A. Two B. Four C. Six D. Eight E. None of the above 10 kN B Qc 4m A 3m + + 3m 3m 6. 7. The slope-deflection method was originally developed by Heinrich Manderla and Otto Mohr for the purpose of studying. A. secondary stresses in trusses B. secondary stresses in beams and frames C. Indeterminate beams and frames analysis D. Determinate beams and frames analysis E. None of the above In structures that have non-parallel end members, the displacement of the members will be..... A. Similar B. Different C. Proportional D. Zero E. None of the above. 8. The magnitude of the fix end moment at A 4k/ft using slope deflection method equals to pin exfix ...........k. ft. A. 25 B. -25 C. 40 D. -40 E. None of the above. A roller 15 ft- 12 f The magnitude of MBC for the frame shown in question number 3 using slope deflection method equals Assume El constant for all members. A. 4/9 El 88 +0.3 A 9. to B. -4/9 El 88.0.3 A C. 4/9 El 8B D. -4/9 El OB E. None of the above

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter6: Deflections Of Beams: Geometric Methods

Section: Chapter Questions

Problem 14P

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Question

5.
The number of unknowns for the frame shown
using slope deflection method is... Assume
A, B and D are fixed and interior hinge at C
A. Two
B. Four
C. Six
D. Eight
E. None of the above
10 kN
B
Qc
4m
A
3m
+
+
3m
3m
6.
7.
The slope-deflection method was originally developed by Heinrich Manderla and Otto Mohr for the
purpose of studying.
A. secondary stresses in trusses
B. secondary stresses in beams and frames
C. Indeterminate beams and frames analysis
D. Determinate beams and frames analysis
E. None of the above
In structures that have non-parallel end members, the displacement of the members will be.....
A. Similar
B. Different
C. Proportional
D. Zero
E. None of the above.
8.
The magnitude of the fix end moment at A
4k/ft
using slope deflection method equals to
pin
exfix
...........k. ft.
A. 25
B. -25
C. 40
D. -40
E. None of the above.
A
roller
15 ft-
12 f
The magnitude of MBC for the frame shown in question number 3 using slope deflection method equals
Assume El constant for all members.
A. 4/9 El 88 +0.3 A
9.
to
B. -4/9 El 88.0.3 A
C. 4/9 El 8B
D. -4/9 El OB
E. None of the above

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