Explanation Calculation: Calculate the length of inclined member AB and DE as shown below. L A B = L D E = 4 2 + 3 2 = 16 + 9 = 25 = 5 in . Calculate the moment of inertia as shown below. I = b d 3 12 + A ( y − y ¯ ) 2 + 1 3 A i h 2 Here, b is the width of the section, d is the height of the section, A is the area of the beam, A i is the area of the inclined member, h is the height above the neutral axis, and ( y − y ¯ ) is the centroid of the beam from the neutral axis. Calculate the moment of inertia for whole section as shown below. I = 2 × [ 1 12 × 5 × t × 3 2 + 5 t × 4 2 ] + [ 1 12 × t × 5 3 ] = 167.5 t + 10.417 t = 177.917 in . 4 Sketch the cross section as shown in Figure 1. Refer to Figure 1. Calculate the area of the member as shown below. Calculate the first moment of area as shown below. Q = ∑ A y ¯ For part BD : Q = 5 t × 4 + ( 2.5 − y ) t × ( 2.5 + y ) 2 = 20 t + ( 6.25 − y 2 ) 2 t = ( 23.125 − y 2 2 ) t Calculate the shear stress as shown below. τ = V Q I t Here, V is the vertical shear and t is the thickness of the section. Substitute ( 23.125 − y 2 2 ) t for Q . τ = V × ( 23.125 − y 2 2 ) t I t = V ( 23.125 − y 2 2 ) I Sketch the shear flow in the cross section as shown in Figure 2. Refer to Figure 2. The lines of action of F A B and F D E pass through point K

7th Edition

ISBN: 9780073398235

Author: Ferdinand P. Beer, E. Russell Johnston Jr., John T. DeWolf, David F. Mazurek

Publisher: McGraw-Hill Education

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Any functioning component, such as machine parts, structural members, pressure vessels, and so on, are all under the influence of more than one force. When anybody is under the influence of more than one force such as shear forces, bending moments, axial…

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Chapter 6.6, Problem 71P

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The location of the shear center O of a thin-walled beam.

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Chapter 6.6, Problem 70P

Chapter 6.6, Problem 72P

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Chapter 6 Solutions

Mechanics of Materials, 7th Edition

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