- 8.8.1: A W10 3 39 rolled-steel beam supports a load P as shown. Knowingtha...
- 8.8.2: Solve Prob. 8.1, assuming that P 5 22.5 kips and a 5 20 in.
- 8.8.3: An overhanging W920 3 449 rolled-steel beam supports a loadP as sho...
- 8.8.4: Solve Prob. 8.3, assuming that P 5 850 kN and a 5 2.0 m.
- 8.8.5: (a) Knowing that sall 5 24 ksi and tall 5 14.5 ksi, selectthe most ...
- 8.8.6: (a) Knowing that sall 5 24 ksi and tall 5 14.5 ksi, selectthe most ...
- 8.8.7: (a) Knowing that sall 5 160 MPa and tall 5 100 MPa,select the most ...
- 8.8.8: (a) Knowing that sall 5 160 MPa and tall 5 100 MPa,select the most ...
- 8.8.9: Each of the following problems refers to arolled-steel shape select...
- 8.8.10: Each of the following problems refers to arolled-steel shape select...
- 8.8.11: Each of the following problems refers to arolled-steel shape select...
- 8.8.12: Each of the following problems refers to arolled-steel shape select...
- 8.8.13: Each of the following problems refers to arolled-steel shape select...
- 8.8.14: Each of the following problems refers to arolled-steel shape select...
- 8.8.15: The vertical force P1 and the horizontal force P2 are applied assho...
- 8.8.16: The two 500-lb forces are vertical and the force P is parallel to t...
- 8.8.17: For the gear-and-shaft system and loading of Prob. 8.16, determinet...
- 8.8.18: The 4-kN force is parallel to the x axis, and the force Q is parall...
- 8.8.19: Neglecting the effect of fillets and of stress concentrations, dete...
- 8.8.20: Knowing that rods BC and CD are of diameter 24 mm and 36 mm,respect...
- 8.8.21: It was stated in Sec. 8.3 that the shearing stresses produced in as...
- 8.8.22: Assuming that the magnitudes of the forces applied to disks A andC ...
- 8.8.23: The solid shafts ABC and DEF and the gears shown are used totransmi...
- 8.8.24: Solve Prob. 8.23, assuming that the motor rotates at 360 rpm
- 8.8.25: The solid shaft AB rotates at 360 rpm and transmits 20 kW fromthe m...
- 8.8.26: Solve Prob. 8.25, assuming that the entire 20 kW is taken off atgea...
- 8.8.27: The solid shaft ABC and the gears shown are used to transmit10 kW f...
- 8.8.28: Assuming that shaft ABC of Prob. 8.27 is hollow and has an outerdia...
- 8.8.29: The solid shaft AE rotates at 600 rpm and transmits 60 hp fromthe m...
- 8.8.30: Solve Prob. 8.29, assuming that 30 hp is taken off at gear G and30 ...
- 8.8.31: A 6-kip force is applied to the machine element AB as shown.Knowing...
- 8.8.32: A 6-kip force is applied to the machine element AB as shown.Knowing...
- 8.8.33: For the bracket and loading shown, determine the normal andshearing...
- 8.8.34: Member AB has a uniform rectangular crosssection of 10 3 24 mm. For...
- 8.8.35: Member AB has a uniform rectangular crosssection of 10 3 24 mm. For...
- 8.8.36: Member AB has a uniform rectangular crosssection of 10 3 24 mm. For...
- 8.8.37: Several forces are applied to the pipe assembly shown. Knowingthat ...
- 8.8.38: The steel pile AB has a 100-mm outer diameter and an 8-mm wallthick...
- 8.8.39: The billboard shown weighs 8000 lb and is supported by a structural...
- 8.8.40: A thin strap is wrapped around a solid rod of radius c 5 20 mmas sh...
- 8.8.41: A vertical force P of magnitude 60 lb is applied to the crank at po...
- 8.8.42: A 13-kN force is applied as shown to the 60-mm-diameter cast-ironpo...
- 8.8.43: A 10-kN force and a 1.4-kN ? m couple are applied at the top ofthe ...
- 8.8.44: Forces are applied at points A and B of the solid cast-iron bracket...
- 8.8.45: Three forces are applied to the bar shown. Determine the normaland ...
- 8.8.46: Solve Prob. 8.45, assuming that h 5 12 in.
- 8.8.47: Three forces are applied to the bar shown. Determine the normaland ...
- 8.8.48: Solve Prob. 8.47, assuming that the 750-N force is directed vertica...
- 8.8.49: For the post and loading shown, determine the principal stresses,pr...
- 8.8.50: For the post and loading shown, determine the principal stresses,pr...
- 8.8.51: Two forces are applied to the small post BD as shown. Knowingthat t...
- 8.8.52: Solve Prob. 8.51, assuming that the magnitude of the 6000-lb force ...
- 8.8.53: Three steel plates, each 13 mm thick, are welded together to forma ...
- 8.8.54: Three steel plates, each 13 mm thick, are welded together to forma ...
- 8.8.55: Two forces are applied to a W8 3 28 rolled-steel beam as shown.Dete...
- 8.8.56: Two forces are applied to a W8 3 28 rolled-steel beam as shown.Dete...
- 8.8.57: Two forces P1 and P2 are applied as shown in directions perpendicul...
- 8.8.58: Two forces P1 and P2 are applied as shown in directions perpendicul...
- 8.8.59: A vertical force P is applied at the center of the free end of cant...
- 8.8.60: A force P is applied to a cantilever beam by means of a cableattach...
- 8.8.61: A 5-kN force P is applied to a wire that is wrapped around bar AB 5...
- 8.8.62: Knowing that the structural tube shown has a uniform wall thickness...
- 8.8.63: The structural tube shown has a uniform wall thickness of 0.3 in.Kn...
- 8.8.64: For the tube and loading of Prob. 8.63, determine the principalstre...
- 8.8.65: (a) Knowing that sall 5 24 ksi and tall 5 14.5 ksi, select the most...
- 8.8.66: Determine the smallest allowable diameter of the solid shaftABCD, k...
- 8.8.67: Using the notation of Sec. 8.3 and neglecting the effect of shearin...
- 8.8.68: The solid shaft AB rotates at 450 rpm and transmits 20 kW fromthe m...
- 8.8.69: Two 1.2-kip forces are applied to an L-shaped machine element Revie...
- 8.8.70: Two forces are applied to the pipe AB as shown. Knowing that thepip...
- 8.8.71: A close-coiled spring is made of a circular wire of radius r that i...
- 8.8.72: Three forces are applied to a 4-in.-diameter plate that is attached...
- 8.8.73: Knowing that the bracket AB has a uniform thickness of 58in., deter...
- 8.8.74: Three forces are applied to the machine component ABD asshown. Know...
- 8.8.75: Knowing that the structural tube shown has a uniform wall thickness...
- 8.8.76: The cantilever beam AB will be installed so that the 60-mm sideform...

# Solutions for Chapter 8: Mechanics of Materials 6th Edition

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ISBN: 9780073380285

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