The simply supported (pin from one end and roller from the other end) I-beam is subjected to the loading shown. The horizontal 5000 lb force is applied at the intersection of the bottom flange and the web (i.e. 2 inches above the bottom flange). Determine and draw the state of stress (o & t) of an element at point B. (1 ft = 12 in.). 500 lb 2 ft 2 ft 2500 lb B 2 ft 4 ft 3000 lb 0.5 in.- B 6 ft 0.5 in. -4 in 43 4 in. 12 in. 0.5 in. 5000 lb
The simply supported (pin from one end and roller from the other end) I-beam is subjected to the loading shown. The horizontal 5000 lb force is applied at the intersection of the bottom flange and the web (i.e. 2 inches above the bottom flange). Determine and draw the state of stress (o & t) of an element at point B. (1 ft = 12 in.). 500 lb 2 ft 2 ft 2500 lb B 2 ft 4 ft 3000 lb 0.5 in.- B 6 ft 0.5 in. -4 in 43 4 in. 12 in. 0.5 in. 5000 lb
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Question
![The simply supported (pin from one end and roller from the other end) I-beam is subjected to the
loading shown. The horizontal 5000 lb force is applied at the intersection of the bottom flange
and the web (i.e. 2 inches above the bottom flange). Determine and draw the state of stress (o
& t) of an element at point B. (1 ft = 12 in.).
500 lb
2 ft
2 ft
2500 lb
B
2 ft
4 ft
3000 lb
0.5 in.-
B
6 ft
0.5 in.
11
43
4 in.
-4 in:
12 in.
0.5 in.
5000 lb](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F184586b6-281c-4a93-88f8-80428aa0bd98%2F34ba9e78-f127-45ab-be1b-8059220011f5%2F7snh0lh_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The simply supported (pin from one end and roller from the other end) I-beam is subjected to the
loading shown. The horizontal 5000 lb force is applied at the intersection of the bottom flange
and the web (i.e. 2 inches above the bottom flange). Determine and draw the state of stress (o
& t) of an element at point B. (1 ft = 12 in.).
500 lb
2 ft
2 ft
2500 lb
B
2 ft
4 ft
3000 lb
0.5 in.-
B
6 ft
0.5 in.
11
43
4 in.
-4 in:
12 in.
0.5 in.
5000 lb
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