- 9.9.1: A 4.8-ft-long steel wire of 1 4-in. diameter is subjected to a 750-...
- 9.9.2: Two gage marks are placed exactly 250 mm apart on a 12-mmdiameter a...
- 9.9.3: A nylon thread is subjected to a 2-lb tensile load. Knowing that E ...
- 9.9.4: A 9-m length of 6-mm-diameter steel wire is to be used in a hanger....
- 9.9.5: A steel rod is 2.2 m long and must not stretch more than 1.2 mm whe...
- 9.9.6: A control rod made of yellow brass must not stretch more than 1 8 i...
- 9.9.7: An aluminum pipe must not stretch more than 0.05 in. when it is sub...
- 9.9.8: A cast-iron tube is used to support a compressive load. Knowing tha...
- 9.9.9: A block of 10-in. length and 1.8 3 1.6-in. cross section is to supp...
- 9.9.10: A 9-kN tensile load will be applied to a 50-m length of steel wire ...
- 9.9.11: The 4-mm-diameter cable BC is made of a steel with E 5 200 GPa. Kno...
- 9.9.12: Rod BD is made of steel (E 5 29 3 106 psi) and is used to brace the...
- 9.9.13: The specimen shown is made from a 1-in.-diameter cylindrical steel ...
- 9.9.14: Both portions of the rod ABC are made of an aluminum for which E 5 ...
- 9.9.15: The rod ABC is made of an aluminum for which E 5 70 GPa. Knowing th...
- 9.9.16: Two solid cylindrical rods are joined at B and loaded as shown. Rod...
- 9.9.17: A 1 8-in.-thick hollow polystyrene cylinder (E 5 0.45 3 106 psi) an...
- 9.9.18: The 36-mm-diameter steel rod ABC and a brass rod CD of the same dia...
- 9.9.19: The steel frame (E 5 200 GPa) shown has a diagonal brace BD with an...
- 9.9.20: For the steel truss (E 5 29 3 106 psi) and loading shown, determine...
- 9.9.21: Members AB and BC are made of steel (E 5 29 3 106 psi) with cross-s...
- 9.9.22: Members ABC and DEF are joined with steel links (E 5 200 GPa). Each...
- 9.9.23: Each of the links AB and CD is made of aluminum (E 5 75 GPa) and ha...
- 9.9.24: Link BD is made of brass (E 5 15 3 106 psi) and has a cross-section...
- 9.9.25: An axial force of 60 kN is applied to the assembly shown by means o...
- 9.9.26: The length of the assembly decreases by 0.15 mm when an axial force...
- 9.9.27: The 4.5-ft concrete post is reinforced with six steel bars, each wi...
- 9.9.28: For the concrete post of Prob. 9.27, determine the maximum centric ...
- 9.9.29: Three steel rods (E 5 29 3 106 psi) support an 8.5-kip load P. Each...
- 9.9.30: Two cylindrical rods, one of steel and the other of brass, are join...
- 9.9.31: Solve Prob. 9.30 assuming that rod AC is made of brass and rod CE i...
- 9.9.32: Two cylindrical rods, CD made of steel (E 5 29 3 106 psi) and AC ma...
- 9.9.33: Three wires are used to suspend the plate shown. Aluminum wires of ...
- 9.9.34: The rigid bar AD is supported by two steel wires of 1 16-in. diamet...
- 9.9.35: The rigid rod ABC is suspended from three wires of the same materia...
- 9.9.36: The rigid bar ABCD is suspended from four identical wires. Determin...
- 9.9.37: The brass shell (ab 5 20.9 3 106/8C) is fully bonded to the steel c...
- 9.9.38: The assembly shown consists of an aluminum shell (Ea 5 70 GPa, aa 5...
- 9.9.39: A 4-ft concrete post is reinforced by four steel bars, each of 3 4-...
- 9.9.40: The steel rails for a railroad track (Es 5 29 3 106 psi, as 5 6.5 3...
- 9.9.41: A rod consisting of two cylindrical portions AB and BC is restraine...
- 9.9.42: A rod consisting of two cylindrical portions AB and BC is restraine...
- 9.9.43: For the rod of Prob. 9.42, determine the maximum allowable temperat...
- 9.9.44: Determine (a) the compressive force in the bars shown after a tempe...
- 9.9.45: Knowing that a 0.5-mm gap exists when the temperature is 208C, dete...
- 9.9.46: At room temperature (708F) a 0.02-in. gap exists between the ends o...
- 9.9.47: A brass link (Eb 5 15 3 106 psi, ab 5 10.4 3 106/8F) and a steel ro...
- 9.9.48: Two steel bars (Es 5 200 GPa and as 5 11.7 3 106/8C) are used to re...
- 9.9.49: In a standard tensile test a steel rod of 7 8-in. diameter is subje...
- 9.9.50: A standard tension test is used to determine the properties of an e...
- 9.9.51: A 2-m length of an aluminum pipe of 240-mm outer diameter and 10-mm...
- 9.9.52: The change in diameter of a large steel bolt is carefully measured ...
- 9.9.53: An aluminum plate (E 5 74 GPa, n 5 0.33) is subjected to a centric ...
- 9.9.54: A 600-lb tensile load is applied to a test coupon made from 1 16-in...
- 9.9.55: The aluminum rod AD is fitted with a jacket that is used to apply a...
- 9.9.56: For the rod of Prob. 9.55, determine the forces that should be appl...
- 9.9.57: A 20-mm square has been scribed on the side of a large steel pressu...
- 9.9.58: A fabric used in air-inflated structures is subjected to a biaxial ...
- 9.9.59: In many situations it is known that the normal stress in a given di...
- 9.9.60: In many situations physical constraints prevent strain from occurri...
- 9.9.61: The plastic block shown is bonded to a rigid support and to a verti...
- 9.9.62: A vibration isolation unit consists of two blocks of hard rubber bo...
- 9.9.63: A vibration isolation unit consists of two blocks of hard rubber wi...
- 9.9.64: An elastomeric bearing (G 5 0.9 MPa) is used to support a bridge gi...
- 9.9.65: Two holes have been drilled through a long steel bar that is subjec...
- 9.9.66: Knowing that sall 5 16 ksi, determine the maximum allowable value o...
- 9.9.67: Knowing that, for the plate shown, the allowable stress is 125 MPa,...
- 9.9.68: Knowing that P 5 38 kN, determine the maximum stress when (a) r 5 1...
- 9.9.69: (a) Knowing that the allowable stress is 140 MPa, determine the max...
- 9.9.70: A centric axial force is applied to the steel bar shown. Knowing th...
- 9.9.71: Knowing that the hole has a diameter of 3 8 in., determine (a) the ...
- 9.9.72: For P 5 8.5 kips, determine the minimum plate thickness t required ...
- 9.9.73: The aluminum rod ABC (E 5 10.1 3 106 psi), which consists of two cy...
- 9.9.74: The brass tube AB (E 5 15 3 106 psi) has a cross-sectional area of ...
- 9.9.75: The length of the 2-mm-diameter steel wire CD has been adjusted so ...
- 9.9.76: The uniform rods AB and BC are made of steel and are loaded as show...
- 9.9.77: The steel bars BE and AD each have a 6 3 18-mm cross section. Knowi...
- 9.9.78: In Prob. 9.77, the 3.2-kN force caused point C to deflect to the ri...
- 9.9.79: An axial centric force P is applied to the composite block shown by...
- 9.9.80: A steel tube (E 5 29 3 106 psi) with a 11 4-in. outer diameter and ...
- 9.9.81: The block shown is made of a magnesium alloy for which E 5 6.5 3 10...
- 9.9.82: A vibration isolation unit consists of two blocks of hard rubber bo...
- 9.9.83: A hole is to be drilled in the plate at A. The diameters of the bit...
- 9.9.84: (a) For P 5 58 kN and d 5 12 mm, determine the maximum stress in th...

# Solutions for Chapter 9: Stress and StrainAxial Loading

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

ISBN: 9780073380155

Solutions for Chapter 9: Stress and StrainAxial Loading

Get Full SolutionsStatics and Mechanics of Materials was written by and is associated to the ISBN: 9780073380155. Since 84 problems in chapter 9: Stress and StrainAxial Loading have been answered, more than 28555 students have viewed full step-by-step solutions from this chapter. Chapter 9: Stress and StrainAxial Loading includes 84 full step-by-step solutions. 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.