A flanged wooden shape is used to support the loads shown on the beam. The dimensions...
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 = 6 ft, LBC = 2
ft, LCD = 2 ft, LDE = 4 ft,
PC = 1700 lb, PE = 1750 lb,
wAB = 610 lb/ft, b1 = 7
in., b2 = 2 in., b3 = 3
in., d1 = 2 in., d2 = 11
in., d3 = 2 in. Consider the entire 14-ft
length of the beam and determine:
(a) the maximum tension bending stress σT at any location along the
beam, and
(b) the maximum compression bending stress σC at any location along
the beam.
P.s I can't upload the image but its still the same figures like
the other questions with just different values :(
Homework Answers
Hey dear please provide the figures that are mentioned in the question. Without figures the problem can't be solved. So I humbly request you to upload the question with figure so that you can be helped with the solution. Thank you.
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A flanged wooden shape is used to support the loads shown on the
beam. The dimensions...
A flanged wooden shape is used to support the loads shown on the beam. The dimensions...
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 = 5 ft. LBC = 2 ft, LCD= 3 ft, LDE = 4 ft, Pc = 2060 lb, Pe= 1990 lb, WAB = 750 lb/ft, b1 = 10 in., b2 = 2 in., b3 = 7 in., dų = 2 in., d2 = 8 in., d3= 2 in. Consider the entire 14-ft length...
A flanged wooden shape is used to support the loads shown on the beam. The dimensions...
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2 LAB LBC Answers
A cantilever beam supports the loads shown. The cross-sectional dimensions of the shape are also shown....
A cantilever beam supports the
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Can you please only solve for 6,7,8, and 9 A channel shape is used to support...
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A wood beam supports the loads shown. The cross-sectional dimensions of the beam are shown in...
A wood beam supports the loads shown. The cross-sectional dimensions of the beam are shown in the second figure. Assume LAB=2.8 m, LBC=1.1 m, LCD=1.6 m, w=12 kN/m, P=6.8 kN, b1=20 mm, b2=75 mm, d1=100 mm, and dz=240 mm. Determine the magnitude of: (a) the maximum horizontal shear stress Tmax in the beam. (b) the maximum tension bending stress max (and location x) in the beam. - X BI ec LAB I LBCI LCDJ bil b2 bil Answers: kPa. (a)...
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A cantilever beam supports the loads shown. The cross-sectional
dimensions of the shape are also shown. Assume
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ft, w = 1380 lb/ft, P = 2600 lb, b = 15
in., d = 7 in., t = 0.35 in. Determine
(a) the maximum horizontal shear stress.
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(c) the maximum tension bending stress.
2 LAB LBC Answers
A cantilever beam supports the
loads shown. The cross-sectional dimensions of the shape are also
shown. Assume LAB = 4.0 ft,
LBC = 12.0 ft, w = 1620 lb/ft,
P = 2550 lb, b = 16 in., d = 6 in.,
t = 0.50 in. Determine
(a) the maximum horizontal shear stress.
(b) the maximum compression bending stress.
(c) the maximum tension bending stress.
Chapter 9, Supplemental Question 043 (GO Tutorial) A cantilever beam supports the loads shown. The cross...
A flanged cross section is used to support the loads shown in Figure 5. The dimensions of the cross section are given in a figure below. Consider the entire 20-ft length of the beam and determine: (a) Draw diagrams of shear forces and moments, (b) Determine maximum tensile normal stress in the cross section, and (c) Determine maximum compression normal stress in the cross section. 700 lb 1,500 lb 4 in. 1 in. 200 lb/ft in. B IC 12 in....
P9.037 A cantilever beam supports the loads shown. The cross-sectional dimensions of the shape are also shown. Assume LAB-2.5 ft, LBc 7.5 ft, w 1500 lb/ft, P-2100 lb, b-15 in., d-8 in., t 0.45 in. Determine (a) the maximum horizontal shear stress. (b) the maximum compression bending stress. (c) the maximum tension bending stress BC MB Answers: ksi ƠC,ma,- (b) ksi ƠT,max= (c)
P9.037 A cantilever beam supports the loads shown. The cross-sectional dimensions of the shape are also shown....
P8.023 GO Multipart Part 1 A channel shape is used to support the loads shown on the beam. The dimensions of the shape are also shown. Assume La-3 ft, Lac-9 ft, P-2000 lb, w 850 Ib/ft, b-14 in., d-10 in., t-0.625 in. Consider the entire 12-ft length of the beam and determine (a) the maximum tension bending stress at any location along the beam, and (b) the maximum compression bending stress at any location along the beam. 14 Break the...
Can you please only solve for
6,7,8, and 9
A channel shape is used to support the loads shown on the beam. The dimensions of the shape are also shown. Assume beam and determine B 3 ft, L 29 ft, P 2150 lb, w =900 lb/ft b 13 in d=10 in t=0.750 in. Consider the entire 12 t length of the (a) the maximum tension bending stress at any location along the beam, and (b) the maximum compression bending stress...
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