A double tee cross section is used for the beam shown below. Assume the following lengths and loads: a = 14 ft b = 7 ft c = 9 ft P = 8000 lb Q = 3000 lb The moment of inertia of the cross section is l₂ = 110 in.4. Determine the magnitude (i.e., the absolute value) of the maximum tensile bending stress in the beam. a ๆ B b C X y ↑ 3.2 in. TT 5.8 in.

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Chapter2: Loads On Structures
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A
double tee cross section is used for the beam shown below. Assume the following lengths and loads:
a = 14 ft
b = 7 ft
c = 9 ft
P = 8000 lb
Q=
=
3000 lb
The moment of inertia of the cross section is l₂ = 110 in.4. Determine the magnitude (i.e., the absolute value) of the maximum tensile
bending stress in the beam.
Answer:
a
Omax (Tension) = i
P
V
B
b
C
psi
C
q
x
TT
↑
3.2 in.
5.8 in.
Transcribed Image Text:A double tee cross section is used for the beam shown below. Assume the following lengths and loads: a = 14 ft b = 7 ft c = 9 ft P = 8000 lb Q= = 3000 lb The moment of inertia of the cross section is l₂ = 110 in.4. Determine the magnitude (i.e., the absolute value) of the maximum tensile bending stress in the beam. Answer: a Omax (Tension) = i P V B b C psi C q x TT ↑ 3.2 in. 5.8 in.
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