e to sustain the loading applied to it, and that the des: al components are the bar BD and the pin at C. r of safety against failure of BD by yielding is FS,= he factor of safety against ultimate shear failure of t C is FS, = 3.3. (a) Determine the required thickn he rectangular bar BD, whose width is b. (b) Determ

answer 2.8-9 with fbd please

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a high-strength steel pin. Assume that the pin at B is ade- quate to sustain the loading applied to it, and that the design- critical components are the bar BD and the pin at C. The factor of safety against failure of BD by yielding is FS, = 3.0, and the factor of safety against ultimate shear failure of the pin at C is FS, = 3.3. (a) Determine the required thickness, 1, of the rectangular bar BD, whose width is b. (b) Determine the required diameter, d, of the pin at C. %3D P = 2400 lb, L = 6 ft, h = 4 ft Bar BD: b = 1 in., oy = 36 ksi, Pin C: Ty = 60 ksi %3D t = thickness - A B, La View a-a L/2 L/2 P P2.8-8 and P2.8-9 DProb. 2.8-9. Solve Prob. 2.8-8 using the following data: P = 10 kN, L = 3 m, h = 2 m Bar BD: b = 25 mm, ơy = 250 MPa, Pin C: Ty = 400 MPa -||-

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DProb. 2.8-8. Boom AC in Fig. P2.8-8 is supported by a rec- tangular steel bar BD, and it is attached to a bracket at C by