- 2.2.10: An 80-m-long wire of 5-mm diameter is made of a steel withE 5 200 G...
- 2.2.20: steel control rod is 5.5 ft long and must not stretch more than0.04...
- 2.2.30: Two gage marks are placed exactly 10 in. apart on a 12-in.-diameter...
- 2.2.40: An 18-m-long steel wire of 5-mm diameter is to be used in themanufa...
- 2.2.50: A polystyrene rod of length 12 in. and diameter 0.5 in. is subjecte...
- 2.2.60: A nylon thread is subjected to a 8.5-N tension force. Knowing thatE...
- 2.2.70: Two gage marks are placed exactly 250 mm apart on a 12-mmdiameteral...
- 2.2.80: An aluminum pipe must not stretch more than 0.05 in. when itis subj...
- 2.2.90: An aluminum control rod must stretch 0.08 in. when a 500-lbtensile ...
- 2.2.10: A square yellow-brass bar must not stretch more than 2.5 mm when 73...
- 2.2.11: A 4-m-long steel rod must not stretch more than 3 mm and thenormal ...
- 2.2.12: A nylon thread is to be subjected to a 10-N tension. Knowing thatE ...
- 2.2.13: The 4-mm-diameter cable BC is made of a steel with E 5200 GPa. Know...
- 2.2.14: The aluminum rod ABC (E 5 10.1 3 106 psi), which consists oftwo cyl...
- 2.2.15: A 4-ft section of aluminum pipe of cross-sectional area 1.75 in2res...
- 2.2.16: The brass tube AB (E 5 105 GPa) has a cross-sectional area of140 mm...
- 2.2.17: A 250-mm-long aluminum tube (E 5 70 GPa) of 36-mm outerdiameter and...
- 2.2.18: The specimen shown is made from a 1-in.-diameter cylindricalsteel r...
- 2.2.19: Both portions of the rod ABC are made of an aluminum for whichE 5 7...
- 2.2.20: The rod ABC is made of an aluminum for which E 5 70 GPa.Knowing tha...
- 2.2.21: Members AB and BC are made of steel (E 5 29 3 106 psi) with 75cross...
- 2.2.22: The steel frame (E 5 200 GPa) shown has a diagonal brace BD withan ...
- 2.2.23: For the steel truss (E 5 200 GPa) and loading shown, determinethe d...
- 2.2.24: For the steel truss (E 5 29 3 106 psi) and loading shown, determine...
- 2.2.25: Each of the links AB and CD is made of aluminum (E 5 10.9 3106 psi)...
- 2.2.26: The length of the 332-in.-diameter steel wire CD has been adjusteds...
- 2.2.27: Link BD is made of brass (E 5 105 GPa) and has a cross-sectionalare...
- 2.2.28: Each of the four vertical links connecting the two rigid horizontal...
- 2.2.29: The vertical load P is applied at the center A of the upper section...
- 2.2.30: A homogenous cable of length L and uniform cross section is suspend...
- 2.2.31: The volume of a tensile specimen is essentially constant whileplast...
- 2.2.32: Denoting by P the engineering strain in a tensile specimen, showtha...
- 2.2.33: An axial force of 200 kN is applied to the assembly shown by meanso...
- 2.2.34: The length of the assembly shown decreases by 0.40 mm when anaxial ...
- 2.2.35: A 4-ft concrete post is reinforced with four steel bars, each with ...
- 2.2.36: A 250-mm bar of 150 3 30-mm rectangular cross section consistsof tw...
- 2.2.37: Determine the deformation of the composite bar of Prob. 2.36 ifit i...
- 2.2.38: Compressive centric forces of 40 kips are applied at both ends 89of...
- 2.2.39: Three wires are used to suspend the plate shown. Aluminum wiresof 1...
- 2.2.40: A polystyrene rod consisting of two cylindrical portions AB and BCi...
- 2.2.41: Two cylindrical rods, one of steel and the other of brass, are join...
- 2.2.42: Solve Prob. 2.41, assuming that rod AC is made of brass and rodCE i...
- 2.2.43: The rigid bar ABCD is suspended from four identical wires. Determin...
- 2.2.44: The rigid bar AD is supported by two steel wires of 116-in. diamete...
- 2.2.45: The steel rods BE and CD each have a 16-mm diameter (E 5200 GPa); t...
- 2.2.46: Links BC and DE are both made of steel (E 5 29 3 106 psi) andare 12...
- 2.2.47: The concrete post (Ec 5 3.6 3 106 psi and ac 5 5.5 3 1026/ 8F)is re...
- 2.2.48: The assembly shown consists of an aluminum shell (Ea 5 10.6 3106 ps...
- 2.2.49: The aluminum shell is fully bonded to the brass core and the assemb...
- 2.2.50: Solve Prob. 2.49, assuming that the core is made of steel (Es 5200 ...
- 2.2.51: A rod consisting of two cylindrical portions AB and BC is restraine...
- 2.2.52: A steel railroad track (Es 5 200 GPa, as 5 11.7 3 1026/8C) waslaid ...
- 2.2.53: A rod consisting of two cylindrical portions AB and BC is restraine...
- 2.2.54: Solve Prob. 2.53, assuming that portion AB of the composite rodis m...
- 2.2.55: A brass link (Eb 5 105 GPa, ab 5 20.9 3 1026/8C) and a steel rod(Es...
- 2.2.56: Two steel bars (Es 5 200 GPa and as 5 11.7 3 1026/ 8C) are usedto r...
- 2.2.57: Determine the maximum load P that can be applied to the brassbar of...
- 2.2.58: Knowing that a 0.02-in. gap exists when the temperature is 758F,det...
- 2.2.59: Determine (a) the compressive force in the bars shown after atemper...
- 2.2.60: At room temperature (208C) a 0.5-mm gap exists between the endsof t...
- 2.2.61: A 600-lb tensile load is applied to a test coupon made from 116-in....
- 2.2.62: In a standard tensile test a steel rod of 22-mm diameter is subject...
- 2.2.63: A 20-mm-diameter rod made of an experimental plastic is subjectedto...
- 2.2.64: The change in diameter of a large steel bolt is carefully measureda...
- 2.2.65: A 2.5-m length of a steel pipe of 300-mm outer diameter and15-mm wa...
- 2.2.66: An aluminum plate (E 5 74 GPa, n 5 0.33) is subjected to a centrica...
- 2.2.67: The block shown is made of a magnesium alloy for which E 5 45 GPa 1...
- 2.2.68: A 30-mm square was scribed on the side of a large steel pressureves...
- 2.2.69: The aluminum rod AD is fitted with a jacket that is used to applya ...
- 2.2.70: For the rod of Prob. 2.69, determine the forces that should be appl...
- 2.2.71: In many situations physical constraints prevent strain from occurri...
- 2.2.72: In many situations it is known that the normal stress in a givendir...
- 2.2.73: For a member under axial loading, express the normal strain P9 ina ...
- 2.2.74: The homogeneous plate ABCD is subjected to a biaxial loading asshow...
- 2.2.75: A vibration isolation unit consists of two blocks of hard rubberbon...
- 2.2.76: A vibration isolation unit consists of two blocks of hard rubber wi...
- 2.2.77: The plastic block shown is bonded to a fixed base and to a horizont...
- 2.2.78: A vibration isolation unit consists of two blocks of hard rubber 11...
- 2.2.79: The plastic block shown is bonded to a rigid support and to a verti...
- 2.2.80: What load P should be applied to the plate of Prob. 2.79 to produce...
- 2.2.81: Two blocks of rubber with a modulus of rigidity G 5 12 MPa arebonde...
- 2.2.82: Two blocks of rubber with a modulus of rigidity G 5 10 MPa arebonde...
- 2.2.83: Determine the dilatation e and the change in volume of the200-mm le...
- 2.2.84: Determine the change in volume of the 2-in. gage length segmentAB i...
- 2.2.85: 6-in.-diameter solid steel sphere is lowered into the ocean to apoi...
- 2.2.86: (a) For the axial loading shown, determine the change in heightand ...
- 2.2.87: A vibration isolation support consists of a rod A of radius R1 510 ...
- 2.2.88: A vibration isolation support consists of a rod A of radius R1 anda...
- 2.2.89: The material constants E, G, k, and n are related by Eqs. (2.33)and...
- 2.2.90: Show that for any given material, the ratio G/E of the modulus ofri...
- 2.2.91: A composite cube with 40-mm sides and the properties shown ismade w...
- 2.2.92: The composite cube of Prob. 2.91 is constrained against deformation...
- 2.2.93: Two holes have been drilled through a long steel bar that is subjec...
- 2.2.94: Knowing that sall 5 16 ksi, determine the maximum allowablevalue of...
- 2.2.95: Knowing that the hole has a diameter of 9 mm, determine (a) theradi...
- 2.2.96: For P 5 100 kN, determine the minimum plate thickness t requiredif ...
- 2.2.97: The aluminum test specimen shown is subjected to two equal andoppos...
- 2.2.98: For the test specimen of Prob. 2.97, determine the maximum 125value...
- 2.2.99: A hole is to be drilled in the plate at A. The diameters of the bit...
- 2.2.10: a) For P 5 13 kips and d 5 12in., determine the maximum stressin th...
- 2.2.10: Rod ABC consists of two cylindrical portions AB and BC; it ismade o...
- 2.2.10: Rod ABC consists of two cylindrical portions AB and BC; it is madeo...
- 2.2.10: The 30-mm-square bar AB has a length L 5 2.2 m; it is made ofa mild...
- 2.2.10: The 30-mm-square bar AB has a length L 5 2.5 m; it is made ofa mild...
- 2.2.11: Rod AB is made of a mild steel that is assumed to be elastoplasticw...
- 2.2.11: Solve Prob. 2.105, assuming that the yield point of the mild steeli...
- 2.2.11: Each cable has a cross-sectional area of 100 mm2 and is made of ane...
- 2.2.11: Solve Prob. 2.107, assuming that the cables are replaced by rodsof ...
- 2.2.11: Rod AB consists of two cylindrical portions AC and BC, each witha c...
- 2.2.11: For the composite rod of Prob. 2.109, if P is gradually increasedfr...
- 2.2.11: Two tempered-steel bars, each 3 12716-in. thick, are bonded to a 12...
- 2.2.11: For the composite bar of Prob. 2.111, if P is gradually increasedfr...
- 2.2.11: The rigid bar ABC is supported by two links, AD and BE, of uniform3...
- 2.2.11: Solve Prob. 2.113, knowing that a 5 1.76 m and that the magnitudeof...
- 2.2.11: Solve Prob. 2.113, assuming that the magnitude of the force Qapplie...
- 2.2.12: A uniform steel rod of cross-sectional area A is attached to rigids...
- 2.2.12: The steel rod ABC is attached to rigid supports and is unstressedat...
- 2.2.12: Solve Prob. 2.117, assuming that the temperature of the rod israise...
- 2.2.12: For the composite bar of Prob. 2.111, determine the residualstresse...
- 2.2.12: For the composite bar in Prob. 2.111, determine the residualstresse...
- 2.2.12: Narrow bars of aluminum are bonded to the two sides of a thicksteel...
- 2.2.12: Bar AB has a cross-sectional area of 1200 mm2 and is made ofa steel...

# Solutions for Chapter 2: Mechanics of Materials 6th Edition

## Full solutions for Mechanics of Materials | 6th Edition

ISBN: 9780073380285

Solutions for Chapter 2

Get Full Solutions
Solutions for Chapter 2

10

0

Since 122 problems in chapter 2 have been answered, more than 27424 students have viewed full step-by-step solutions from this chapter. This textbook survival guide was created for the textbook: Mechanics of Materials, edition: 6. This expansive textbook survival guide covers the following chapters and their solutions. Chapter 2 includes 122 full step-by-step solutions. Mechanics of Materials was written by and is associated to the ISBN: 9780073380285.

Key Engineering and Tech Terms and definitions covered in this textbook