A cantilever beam BD rests on a simple beam AC as shown below. Both beams are of the same material and are 3 in wide by 8 in deep. If they jointly carry a load P = 1400 lb, compute the maximum flexural stress developed in the beams in psi. Note: another load of 1400 lb is added at 2 feet from point B. No need to write the unit in your final answer. Use 2 decimal point. P = 1400 lb 8 ft R₁ 8 ft P = 1400 lb B 12 ft 4 ft с
A cantilever beam BD rests on a simple beam AC as shown below. Both beams are of the same material and are 3 in wide by 8 in deep. If they jointly carry a load P = 1400 lb, compute the maximum flexural stress developed in the beams in psi. Note: another load of 1400 lb is added at 2 feet from point B. No need to write the unit in your final answer. Use 2 decimal point. P = 1400 lb 8 ft R₁ 8 ft P = 1400 lb B 12 ft 4 ft с
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Question
![A cantilever beam BD rests on a simple beam AC as shown below. Both beams are of the
same material and are 3 in wide by 8 in deep. If they jointly carry a load P = 1400 lb,
compute the maximum flexural stress developed in the beams in psi.
Note: another load of 1400 lb is added at 2 feet from point B. No need to write the unit in
your final answer. Use 2 decimal point.
P = 1400 lb
8 ft
R₁
8 ft
P = 1400 lb
B
12 ft
4 ft
с](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F72e1a1da-7ba6-4624-8cfe-1c8a3d5a3aef%2F5bc0834f-1663-4796-89e4-7ee9c3c3c0ea%2F80y55a_processed.png&w=3840&q=75)
Transcribed Image Text:A cantilever beam BD rests on a simple beam AC as shown below. Both beams are of the
same material and are 3 in wide by 8 in deep. If they jointly carry a load P = 1400 lb,
compute the maximum flexural stress developed in the beams in psi.
Note: another load of 1400 lb is added at 2 feet from point B. No need to write the unit in
your final answer. Use 2 decimal point.
P = 1400 lb
8 ft
R₁
8 ft
P = 1400 lb
B
12 ft
4 ft
с
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