A wooden beam is fabricated by nailing together three pieces of dimension lumber, as shown. The cross-sectional dimensions of the beam are also shown. The beam must support an internal shear force of V = 750 lb. Assume b1=2.00 in., b2=3.75 in., d1=8.00 in., d2=1.50 in. (a) Determine the maximum horizontal shear stress in the cross section for V = 750 lb.

A wooden beam is fabricated by nailing together three pieces of dimension lumber, as shown. The cross-sectional dimensions of the beam are also shown. The beam must support an internal shear force of V = 750 lb. Assume b1=2.00 in., b2=3.75 in., d1=8.00 in., d2=1.50 in. (a) Determine the maximum horizontal shear stress in the cross section for V = 750 lb.

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter10: Analysis Of Symmetric Structures

Section: Chapter Questions

Problem 28P

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Concept explainers

Members with compression and bending

Compression members are structural elements that carry compressive axial force. They are the vertical members of a building that support beams and their design, which is governed by buckling and strength. Columns are known as struct or compression members, which are subjected to compressive forces. These members provide stiffness to the building and avoid any imperfection regarding the transfer of axial load. For instance, webs in a truss, braces in a framed structure, tiers, and so on.

Question

A wooden beam is fabricated by nailing together three pieces of dimension lumber, as shown. The cross-sectional dimensions of the beam are also shown. The beam must support an internal shear force of V = 750 lb. Assume b1=2.00 in., b2=3.75 in., d1=8.00 in., d2=1.50 in.
(a) Determine the maximum horizontal shear stress in the cross section for V = 750 lb. [Answer: 34 psi]

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