For the beam shown below, calculate the moment of inertia, I, required for the beam so that its maximum vertical deflection, &y,max, does not exceed the limit Amax = L/360. Use the method of virtual work. 1.5 k/ft A B 200 L = 30 ft El = constant E = 29,000 ksi k-ft
For the beam shown below, calculate the moment of inertia, I, required for the beam so that its maximum vertical deflection, &y,max, does not exceed the limit Amax = L/360. Use the method of virtual work. 1.5 k/ft A B 200 L = 30 ft El = constant E = 29,000 ksi k-ft
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Determine I
![For the beam shown below, calculate the moment of inertia, I, required for the beam so that its
maximum vertical deflection, dy,max, does not exceed the limit Amax = L/360. Use the method of
virtual work.
1.5 k/ft
A
B 200
L = 30 ft
El = constant
k-ft
E = 29,000 ksi](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa7a5d3ee-6398-49f2-b469-91e899f2fe0d%2F94ae3fe7-8b75-4385-8d27-3792ca7c8119%2F0kmyz8_processed.png&w=3840&q=75)
Transcribed Image Text:For the beam shown below, calculate the moment of inertia, I, required for the beam so that its
maximum vertical deflection, dy,max, does not exceed the limit Amax = L/360. Use the method of
virtual work.
1.5 k/ft
A
B 200
L = 30 ft
El = constant
k-ft
E = 29,000 ksi
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