Explanation Given information: The x ′ and y ′ axes are the principal centroidal axes of the cross section. The moments of inertia are I x ′ = 166.3 in . 4 and I y ′ = 13.61 in . 4 . The thickness of the Z shape is 1 4 in . Calculation: Refer to Figure P6.87 in the text book. β = 22.5 ° V = 3 kips Sketch the loading as shown in Figure 1. Refer to Figure 1. Calculate the shear along the centroidal axes as shown below. Along x ′ axis: V x ′ = V sin β Substitute 3 kips for V and 22.5 ° for β . V x ′ = 3 sin 22.5 ° = 1.148 kips Along y ′ axis: V y ′ = V cos β Substitute 3 kips for V and 22.5 ° for β . V y ′ = 3 cos 22.5 ° = 2.772 kips Sketch the upper horizontal leg A ′ B ′ as shown in Figure 2. Refer to Figure 2. Area of the member A ( x ) = 1 4 ( 6 + x ) . Centroid of the member. y ¯ = 6 in . x ¯ = 1 2 ( − 6 + x ) Calculate the centroid along the centroidal axes as shown below. Along y ′ axis: y ′ ¯ = y ¯ cos β − x ¯ sin β Substitute 6 in . for y ¯ , 1 2 ( x − 6 ) for x ¯ , and 22.5 ° for β . y ′ ¯ = 6 cos 22.5 ° − 1 2 ( x − 6 ) sin 22.5 ° = 5.5433 − 0.1913 x + 1.1481 = 6.6914 − 0.1913 x Along z ′ axis: x ¯ ′ = x ¯ cos β + y ¯ sin β Substitute 6 in . for y ¯ , 1 2 ( x − 6 ) for x ¯ , and 22.5 ° for β . x ¯ ′ = 1 2 ( x − 6 ) cos 22

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Author: BEER

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Chapter 6.6, Problem 87P

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The distribution of the shearing stresses along line A′B′ in the upper horizontal leg of the Z shape.

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Chapter 6.6, Problem 86P

Chapter 6.6, Problem 88P

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5.86 The cast iron inverted T-section supports two concentrated loads of magni- tude P. The working stresses are 48 MPa in tension, 140 MPa in compression, and 30 MPa in shear. (a) Show that the neutral axis of the cross section is located at d = 48.75 mm and that the moment of inertia of the cross-sectional area about this axis is I = 11.918 x 106 mm“. (b) Find the maximum allowable value of P. 1.0 m 1.0 m 15 mm 3 m 150 mm NA- d 15 mm 150 mm FIG. P5.86

5.86 The cast iron inverted T-section supports two concentrated loads of magnitude P. The working stresses are 48 MPa in tension, 140 MPa in compression, and 30 MPa in shear. (a) Show that the neutral axis of the cross section is located at d ¼ 48:75 mm and that the moment of inertia of the cross-sectional area about this axis is I ¼ 11:918 106 mm4. (b) Find the maximum allowable value of P.

Beam AB is made of three plates glued together and is subjected, in its plane of symmetry, to the loading shown. Knowing that the width of each glued joint is 20 mm, determine the average shearing stress in each joint at section n–n of the beam. The location of the centroid of the section is given in Fig. 1 and the centroidal moment of inertia is known to be I= 8.63 x 10-6 m4

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The distribution of the shearing stresses along line A ′ B ′ in the upper horizontal leg of the Z shape.

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