General instructions: 1. Analyze completely the loaded frame shown below. Draw all free body diagrams (FBD) of members and joints with all notations properly labelled as used in your solution (analysis). E is constant for all members. 2. Show every steps of your solution in chronological order. 3. Determine the horizontal deflection at joint D using unit load method. 4. Draw the shear diagram of the frame. 5. Draw the bending moment diagram of the frame. 6. Draw the approximate elastic curve of the frame. 7. Write your solution in a clean white paper and upload your file (PDF), containing all the requirements enumerated above (1 – 6), on time. - C. hinge 21 D 21 hinge E A hinge 3 m 2 m 12 KN/ m B. 2 m 1m 1 m

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
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General instructions:
1. Analyze completely the loaded frame shown below. Draw all free body diagrams
(FBD) of members and joints with all notations properly labelled as used in your
solution (analysis). E is constant for all members.
2. Show every steps of your solution in chronological order.
3. Determine the horizontal deflection at joint D using unit load method.
4. Draw the shear diagram of the frame.
5. Draw the bending moment diagram of the frame.
6. Draw the approximate elastic curve of the frame.
7. Write your solution in a clean white paper and upload your file (PDF), containing
all the requirements enumerated above (1 – 6), on time.
-
C.
(hinge
21
21
B
hinge E
A hinge
3 m
2 m
12 KN/ m
2 m
1m 1 m
Transcribed Image Text:General instructions: 1. Analyze completely the loaded frame shown below. Draw all free body diagrams (FBD) of members and joints with all notations properly labelled as used in your solution (analysis). E is constant for all members. 2. Show every steps of your solution in chronological order. 3. Determine the horizontal deflection at joint D using unit load method. 4. Draw the shear diagram of the frame. 5. Draw the bending moment diagram of the frame. 6. Draw the approximate elastic curve of the frame. 7. Write your solution in a clean white paper and upload your file (PDF), containing all the requirements enumerated above (1 – 6), on time. - C. (hinge 21 21 B hinge E A hinge 3 m 2 m 12 KN/ m 2 m 1m 1 m
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