- 11.11.1: Knowing that the couple shown acts in a vertical plane, determine t...
- 11.11.2: Knowing that the couple shown acts in a vertical plane, determine t...
- 11.11.3: Using an allowable stress of 155 MPa, determine the largest bending...
- 11.11.4: Solve Prob. 11.3, assuming that the wide-flange beam is bent about ...
- 11.11.5: A nylon spacing bar has the cross section shown. Knowing that the a...
- 11.11.6: Using an allowable stress of 16 ksi, determine the largest couple t...
- 11.11.7: Two W4 3 13 rolled sections are welded together as shown. Knowing t...
- 11.11.8: Two W4 3 13 rolled sections are welded together as shown. Knowing t...
- 11.11.9: Two vertical forces are applied to the beam of the cross section sh...
- 11.11.10: Two vertical forces are applied to the beam of the cross section sh...
- 11.11.11: Two vertical forces are applied to the beam of the cross section sh...
- 11.11.12: Two equal and opposite couples of magnitude M 5 15 kN ? m are appli...
- 11.11.13: Knowing that a beam of the cross section shown is bent about a hori...
- 11.11.14: Solve Prob. 11.13 assuming that the beam is bent about a vertical a...
- 11.11.15: Knowing that a beam of the cross section shown is bent about a hori...
- 11.11.16: Knowing that a beam of the cross section shown is bent about a vert...
- 11.11.17: Knowing that for the extruded beam shown the allowable stress is 12...
- 11.11.18: Knowing that for the extruded beam shown the allowable stress is 12...
- 11.11.19: For the casting shown, determine the largest couple M that can be a...
- 11.11.20: The beam shown is made of a nylon for which the allowable stress is...
- 11.11.21: Solve Prob. 11.20 assuming that d 5 80 mm.
- 11.11.22: Knowing that for the beam shown the allowable stress is 12 ksi in t...
- 11.11.23: Straight rods of 0.30-in. diameter and 200-ft length are sometimes ...
- 11.11.24: A 24 kN ? m couple is applied to the W200 3 46.1 rolled-steel beam ...
- 11.11.25: A bar having the cross section shown has been formed by securely bo...
- 11.11.26: A bar having the cross section shown has been formed by securely bo...
- 11.11.27: For the composite bar indicated, determine the largest permissible ...
- 11.11.28: For the composite bar indicated, determine the largest permissible ...
- 11.11.29: Wooden beams and steel plates are securely bolted together to form ...
- 11.11.30: Wooden beams and steel plates are securely bolted together to form ...
- 11.11.31: Wooden beams and steel plates are securely bolted together to form ...
- 11.11.32: For the composite member of Prob. 11.31, determine the largest perm...
- 11.11.33: A copper strip (Ec 5 105 GPa) and an aluminum strip (Ea 5 75 GPa) a...
- 11.11.34: A copper strip (Ec 5 105 GPa) and an aluminum strip (Ea 5 75 GPa) a...
- 11.11.35: The 6 3 12-in. timber beam has been strengthened by bolting to it t...
- 11.11.36: The 6 3 12-in. timber beam has been strengthened by bolting to it t...
- 11.11.37: For the composite bar indicated, determine the radius of curvature ...
- 11.11.38: For the composite bar indicated, determine the radius of curvature ...
- 11.11.39: For the composite bar indicated, determine the radius of curvature ...
- 11.11.40: For the composite bar indicated, determine the radius of curvature ...
- 11.11.41: The reinforced concrete beam shown is subjected to a positive bendi...
- 11.11.42: Solve Prob. 11.41 assuming that the 450-mm depth of the beam is inc...
- 11.11.43: A concrete slab is reinforced by 16-mm-diameter steel rods placed o...
- 11.11.44: Solve Prob. 11.43 assuming that the spacing of the 16-mm-diameter r...
- 11.11.45: Knowing that the bending moment in the reinforced concrete beam is ...
- 11.11.46: A concrete beam is reinforced by three steel rods placed as shown. ...
- 11.11.47: Five metal strips, each of 0.5 3 1.5-in. cross section, are bonded ...
- 11.11.48: Five metal strips, each of 0.5 3 1.5-in. cross section, are bonded ...
- 11.11.49: Two forces P can be applied separately or at the same time to a pla...
- 11.11.50: As many as three axial loads each of magnitude P 5 10 kips can be a...
- 11.11.51: As many as three axial loads each of magnitude P 5 10 kips can be a...
- 11.11.52: Knowing that the magnitude of the horizontal force P is 8 kN, deter...
- 11.11.53: The vertical portion of the press shown consists of a rectangular t...
- 11.11.54: Solve Prob. 11.53 assuming that t 5 3 8 in.
- 11.11.55: Determine the stress at points A and B (a) for the loading shown, (...
- 11.11.56: Determine the stress at points A and B (a) for the loading shown, (...
- 11.11.57: An offset h must be introduced into a solid circular rod of diamete...
- 11.11.58: An offset h must be introduced into a metal tube of 18-mm outer dia...
- 11.11.59: A short column is made by nailing two 1 3 4-in. planks to a 2 3 4-i...
- 11.11.60: Knowing that the allowable stress in section ABD is 10 ksi, determi...
- 11.11.61: A milling operation was used to remove a portion of a solid bar of ...
- 11.11.62: A milling operation was used to remove a portion of a solid bar of ...
- 11.11.63: The two forces shown are applied to a rigid plate supported by a st...
- 11.11.64: The two forces shown are applied to a rigid plate supported by a st...
- 11.11.65: The shape shown was formed by bending a thin steel plate. Assuming ...
- 11.11.66: Knowing that the allowable stress in section a-a of the hydraulic p...
- 11.11.67: A vertical force P of magnitude 20 kips is applied at a point C loc...
- 11.11.68: A vertical force P is applied at a point C located on the axis of s...
- 11.11.69: The C-shaped steel bar is used as a dynamometer to determine the ma...
- 11.11.70: A short length of a rolled-steel column supports a rigid plate on w...
- 11.11.71: Solve Prob. 11.70 assuming that the measured strains are PA 5 2350 ...
- 11.11.72: An eccentric force P is applied as shown to a steel bar of 25 3 90-...
- 11.11.73: The couple M is applied to a beam of the cross section shown in a p...
- 11.11.74: The couple M is applied to a beam of the cross section shown in a p...
- 11.11.75: The couple M is applied to a beam of the cross section shown in a p...
- 11.11.76: The couple M is applied to a beam of the cross section shown in a p...
- 11.11.77: The couple M is applied to a beam of the cross section shown in a p...
- 11.11.78: The couple M is applied to a beam of the cross section shown in a p...
- 11.11.79: The couple M acts in a vertical plane and is applied to a beam orie...
- 11.11.80: The couple M acts in a vertical plane and is applied to a beam orie...
- 11.11.81: The couple M acts in a vertical plane and is applied to a beam orie...
- 11.11.82: The couple M acts in a vertical plane and is applied to a beam orie...
- 11.11.83: The couple M acts in a vertical plane and is applied to a beam orie...
- 11.11.84: The couple M acts in a vertical plane and is applied to a beam orie...
- 11.11.85: For the loading shown, determine (a) the stress at points A and B, ...
- 11.11.86: Solve Prob. 11.85 assuming that the magnitude of the force applied ...
- 11.11.87: The tube shown has a uniform wall thickness of 0.5 in. For the give...
- 11.11.88: Solve Prob. 11.87 assuming that the 6-kip force at point E is removed.
- 11.11.89: An axial load P of magnitude 50 kN is applied as shown to a short s...
- 11.11.90: An axial load P of magnitude 30 kN is applied as shown to a short s...
- 11.11.91: A horizontal load P is applied to the beam shown. Knowing that a 5 ...
- 11.11.92: A horizontal load P of magnitude 100 kN is applied to the beam show...
- 11.11.93: Knowing that the hollow beam shown has a uniform wall thickness of ...
- 11.11.94: (a) Using an allowable stress of 120 MPa, determine the largest cou...
- 11.11.95: A steel bar (Es 5 210 GPa) and an aluminum bar (Ea 5 70 GPa) are bo...
- 11.11.96: A single vertical force P is applied to a short steel post as shown...
- 11.11.97: Two vertical forces are applied to a beam of the cross section show...
- 11.11.98: In order to increase corrosion resistance, a 0.08-in.-thick claddin...
- 11.11.99: A 6 3 10-in. timber beam has been strengthened by bolting to it the...
- 11.11.100: The four forces shown are applied to a rigid plate supported by a s...
- 11.11.101: A couple M of moment 8 kN ? m acting in a vertical plane is applied...
- 11.11.102: The couple M, which acts in a vertical plane (b 5 0), is applied to...
- 11.11.103: The couple M is applied to a beam of the cross section shown in a p...
- 11.11.104: A couple M will be applied to a beam of rectangular cross section t...

# Solutions for Chapter 11: Pure Bending

## Full solutions for Statics and Mechanics of Materials | 1st Edition

ISBN: 9780073380155

Solutions for Chapter 11: Pure Bending

Get Full SolutionsChapter 11: Pure Bending includes 104 full step-by-step solutions. Statics and Mechanics of Materials was written by and is associated to the ISBN: 9780073380155. Since 104 problems in chapter 11: Pure Bending have been answered, more than 3064 students have viewed full step-by-step solutions from this chapter. This expansive textbook survival guide covers the following chapters and their solutions. This textbook survival guide was created for the textbook: Statics and Mechanics of Materials, edition: 1.

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