Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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Determine the force in member GF, CF, CD of the roof truss.
![Suppose that P₁ = 4.4 kN and P₂ = 3.3 kN. (Figure 1)
Figure
P₁
0.8 m
B
1.70 m
1 m.
H
2 m
P₂
C
[***]
F
2 m
D
1 of 1
1.5 m
E](https://content.bartleby.com/qna-images/question/140bd83b-645e-45c3-8644-e53276eab044/c7af6103-fd54-484d-bfc8-61bd25e6c736/ybszdg_processed.png)
Transcribed Image Text:Suppose that P₁ = 4.4 kN and P₂ = 3.3 kN. (Figure 1)
Figure
P₁
0.8 m
B
1.70 m
1 m.
H
2 m
P₂
C
[***]
F
2 m
D
1 of 1
1.5 m
E
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- Problem 2 (Pro 3.25 Textbook): Identify the zero-force members in the trusses belowarrow_forwardProblem #2: Determine the force in each member at joint A, B and C of the truss and indicate whether the members are in tension or compression using the method of joint. 5kips 8kips C 3kips 8' D. A E 3 bays @ 6'arrow_forwardFor the truss shown below, determine the force in member CD. 9 kN 6 kN 3 kN 0.9 m |G -1.2 m- 1.2 m-1.2 m- FCD = 15kN (C) FCD = 12kN (C) FCD = 15KN (T) O FcD = 9kN (C) E.arrow_forward
- Determine the force in members AB, AC, and BC of loaded truss. (Use method of joints) 30° 60° B 400 kgarrow_forwardDetermine the force in members ED, EH, and GH for the truss shown in fig and state if the members are in tension or * ?compression 50 kN 40 kN -2m 2 m -2 m E 1.5 m 30 kN H 1.5 m B 40 kN 1.5 marrow_forwardDetermine the force in member BE of loaded truss. (Use method of sections) 6 kN 5 kN 4 kN 2m C 2 m B 2m Earrow_forward
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