The wood beam supports loads of w= 480 lb/ft and P = 1160 lb on span lengths of Lag = 8.8 ft, Lec=4.4 ft, and Lco= 4.4 ft. The bean cross section has dimensions of by - 1.1 in., d = 3.3 in., b2 = 4.6 in., and d2 = 8.35 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. di d2 A LAB LBc LCD b2 b1 Answer: (a) Tmax= psi (b) Omax psi

The wood beam supports loads of w= 480 lb/ft and P = 1160 lb on span lengths of Lag = 8.8 ft, Lec=4.4 ft, and Lco= 4.4 ft. The bean cross section has dimensions of by - 1.1 in., d = 3.3 in., b2 = 4.6 in., and d2 = 8.35 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. di d2 A LAB LBc LCD b2 b1 Answer: (a) Tmax= psi (b) Omax psi

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

See similar textbooks

Similar questions

The wood beam supports loads of w = 440 lb/ft and P = 1080 lb on span lengths of LAB = 10.4 ft, LBc = 5.2 ft, and LcD= 5.2 ft. The beam cross section has dimensions of b1 = 1.7 in., d1 = 5.1 in., b2 = 5.4 in., and d2 = 12.75 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. P di d2 В D A LAB LBC LCD b b2 b Answer: (a) Tmax = psi (b) ơmax psi
The wood beam supports loads of w = 430 lb/ft and P = 1120 lb on span lengths of LAB = 11.0 ft, LBC = 5.5 ft, and LCD= 5.5 ft. The beam cross section has dimensions of b1 = 1.7 in., d1 = 5.1 in., b2 = 4.8 in., and d2 = 13.55 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. d d2 B LAB LBC LCD b1 b2 b1 Answer: (a) Tmax psi (b) Omax= psi
The wood beam supports loads of w=460 lb/ft and P = 920 lb on span lengths of LAB= 10.8 ft, LBC= 5.4 ft, and LCD= 5.4 ft. The beam cross section has dimensions of b₁ = 1.1 in., d₁ = 3.3 in., b₂ = 5.3 in., and d2 = 9.25 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. A 31 Answer: (a) Tmax S (b) Omax E W LAB ♫ B psi psi LBC D c LCD P D d₁ N by b₂ b₁ d2
The wood beam supports loads of w = 420 lb/ft and P = 1020 Ib on span lengths of LAB = 11.6 ft, LBc = 5.8 ft, and LCD= 5.8 ft. The beam cross section has dimensions of bq = 1.5 in., d1 = 4.5 in., b2 = 4.5 in., and d2 = 12.85 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. %3D (b) the maximum tensile bending stress in the beam. P w dj d2 B D LaB LBC LcD b2 b1 Answer: (a) Tmax psi (b) Omax psi
The wood beam supports loads of w= 420 lb/ft and P = 860 lb on span lengths of LAB = 11.6 ft, Lec=5.8 ft, and Lcp-5.8 ft. The beam cross section has dimensions of b₁ = 1.5 in., d₁ = 4.5 in., b₂ = 4.8 in., and d₂ = 11.95 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. A Answer: (a) Tmax= (b) gmax= LAB B psi psi LBC LCD D X d₁ b₂ b₁
The wood beam supports loads of w = 470 lb/ft and P = 1080 Ib on span lengths of LAB = 12.0 ft, LBC = 6.0 ft, and LCD= 6.0 ft. The beam cross section has dimensions of b1 = 2.0 in., d1 = 6.0 in., b2 = 5.4 in., and d2 = 15.20 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. di d2 B D LAB LBC LCD b b2 b1 Answer: (a) Tmax= psi (b) ơmax = psi
The wood beam supports loads of w = 420 lb/ft and P = 820 lb on span lengths of Lag = 8.2 ft, Lgc = 4.1 ft, and Lco= 4.1 ft. The beam cross section has dimensions of bị = 1.3 in., d1 = 3.9 in., b2 = 5.1 in., and d2 = 10.35 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. di d2 B D LAB LBC LCD b b2 Answer: (a) Tmax psi (b) ơmax = psi
The wood beam supports loads of w = 450 lb/ft and P = 1100 lb on span lengths of LAB = 9.4 ft, LBC = 4.7 ft, and LCD= 4.7 ft. The beam cross section has dimensions of b1 = 1.7 in., d1 = 5.1 in., b2 = 5.4 in., and d2 = 14.05 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. P di d2 B C D LAB LBC LCD |b| b2 |b1 Answer: (a) Tmax = psi (b) Omax = psi
The wood beam supports loads of w = 460 lb/ft and P = 980 lb on span lengths of LAB = 8.6 ft, LBC = 4.3 ft, and LCD= 4.3 ft. The beam cross section has dimensions of b1 = 1.8 in., d1 = 5.4 in., b2 = 4.8 in., and d2 = 14.90 in. Determine the magnitude and location of:(a) the maximum horizontal shear stress in the beam.(b) the maximum tensile bending stress in the beam.
The wood beam supports loads of w = 480 lb/ft and P = 960 lb on span lengths of LAB = 10.0 ft, LBC = 5.0 ft, and LcD= 5.0 ft. The beam cross section has dimensions of b1 = 1.0 in., d1 = 3.0 in., b2 = 4.7 in., and d2 = 8.50 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. di d2 C LAB LBC LCD b1
The wood beam supports loads of w= 470lb/ft and P= 1060 lb on span lengths of LAg = 10.8 ft, Lec= 5.4 ft, and Lco- 5.4 ft. The beam cross section has dimensions of by = 1.4 in., d = 4.2 in., b2 = 4.9 in., and d2 = 11.90 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. P d2 w di В C LAB LBC LCD b1 b2 b Answer: (a) Tmax= psi (b) Omax psi
Determine the required tension steel area for a rectangular beam with given properties below, d' =75mm b = 350mm d = 475mm fc' = 30MPa fy = 400 MPa A. Mu = 480KN-m, As = mm2 B. Mu = 1000KN-m, As = mm2