A flanged wooden shape is used to support the loads shown on the beam. The dimensions of the shape are shown in the second figure. Assume LAB = 8 ft. Lgc = 2 ft, LCD = 4 ft, LDE = 4 ft. Pc= 1850 lb, PE = 2160 lb, WAB = 830 lb/ft, b₁ = 10 in., b₂= 2 in., b3 =6 in., d₁= 2 in., d₂= 11 in., d3 = 2 in. Consider the entire 18-ft length of the beam and determine: (a) the maximum tension bending stress or at any location along the beam, and (b) the maximum compression bending stress oc at any location along the beam. Answers: (a) GT= (b) o, = i i WAB LAB 666.41 864.39 B Pc LBC b₁ ✔ b3 C LCD -b₂ psi. psi. D d₁ d3 LDE PE E x

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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A flanged wooden shape is used to support the loads shown on the beam. The dimensions of the shape are shown in the second figure.
Assume LAB = 8 ft. LBc = 2 ft, LCD = 4 ft, LDE = 4 ft, PC= 1850 lb, PE = 2160 lb, WAB = 830 lb/ft, b₁ = 10 in., b₂ = 2 in., b3 = 6 in., d₁= 2 in., d₂ =
11 in., d3 = 2 in. Consider the entire 18-ft length of the beam and determine:
(a) the maximum tension bending stress or at any location along the beam, and
(b) the maximum compression bending stress oc at any location along the beam.
Answers:
(a) σT =
(b) a =
i
WAB
LAB
666.41
864.39
B
Pc
1
LBC
b₁
b3
C
LCD
-b₂
psi.
psi.
D
d₁
d3
LDE
PE
E
X
Transcribed Image Text:A flanged wooden shape is used to support the loads shown on the beam. The dimensions of the shape are shown in the second figure. Assume LAB = 8 ft. LBc = 2 ft, LCD = 4 ft, LDE = 4 ft, PC= 1850 lb, PE = 2160 lb, WAB = 830 lb/ft, b₁ = 10 in., b₂ = 2 in., b3 = 6 in., d₁= 2 in., d₂ = 11 in., d3 = 2 in. Consider the entire 18-ft length of the beam and determine: (a) the maximum tension bending stress or at any location along the beam, and (b) the maximum compression bending stress oc at any location along the beam. Answers: (a) σT = (b) a = i WAB LAB 666.41 864.39 B Pc 1 LBC b₁ b3 C LCD -b₂ psi. psi. D d₁ d3 LDE PE E X
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