A bronze bar is fastened between a steel bar and an aluminum bar as shown in Fig. Axail loads are applied at the positions indicated. Find the largest value of P that not exceed an overall deformation of 0.1 mm, or the following stresses: 140 MPa in the steel, 120 MPa in the bronze, and 80 MPa in the aluminum. Assume that the assembley is suitablly barced to prevent buckling. Use E = 200 GPa for steel, E-83 GPa for bronze, and E= 70 GPa for aluminum. Steel A= 480 mm² Bronze A = 650 mm² Aluminum A = 320 mm² 4P 2P 1.0 m 2.0 m 1.5 m P = 12.8 KNO P = 6.8 kN P = 1.4 KN P = 0.4 kN O
A bronze bar is fastened between a steel bar and an aluminum bar as shown in Fig. Axail loads are applied at the positions indicated. Find the largest value of P that not exceed an overall deformation of 0.1 mm, or the following stresses: 140 MPa in the steel, 120 MPa in the bronze, and 80 MPa in the aluminum. Assume that the assembley is suitablly barced to prevent buckling. Use E = 200 GPa for steel, E-83 GPa for bronze, and E= 70 GPa for aluminum. Steel A= 480 mm² Bronze A = 650 mm² Aluminum A = 320 mm² 4P 2P 1.0 m 2.0 m 1.5 m P = 12.8 KNO P = 6.8 kN P = 1.4 KN P = 0.4 kN O
Mechanics of Materials (MindTap Course List)
9th Edition
ISBN:9781337093347
Author:Barry J. Goodno, James M. Gere
Publisher:Barry J. Goodno, James M. Gere
Chapter1: Tension, Compression, And Shear
Section: Chapter Questions
Problem 1.10.2P: A copper alloy pipe with a yield stress aY= 290 MPa. is to carry an axial tensile load P = 1500 kN...
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![A bronze bar is fastened between a steel bar and an aluminum bar as shown in Fig.
Axail loads are applied at the positions indicated. Find the largest value of P that not
exceed an overall deformation of 0.1 mm, or the following stresses: 140 MPa in the
steel, 120 MPa in the bronze, and 80 MPa in the aluminum. Assume that the
assembley is suitablly barced to prevent buckling. Use E = 200 GPa for steel,
E=83 GPa for bronze, and E= 70 GPa for aluminum.
Steel
A= 480 mm²
Bronze
A = 650 mm²
Aluminum
A = 320 mm²
3P
4P
2P
1.0 m
1.5 m
P = 12.8 KNO
P = 6.8 KN
P = 1.4 KN
P = 0.4 KN
2.0 m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F32418687-604c-46ca-beab-f632a40f1464%2Fd7878486-71e2-4542-8d31-4263116bfa6a%2Friop7gr_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A bronze bar is fastened between a steel bar and an aluminum bar as shown in Fig.
Axail loads are applied at the positions indicated. Find the largest value of P that not
exceed an overall deformation of 0.1 mm, or the following stresses: 140 MPa in the
steel, 120 MPa in the bronze, and 80 MPa in the aluminum. Assume that the
assembley is suitablly barced to prevent buckling. Use E = 200 GPa for steel,
E=83 GPa for bronze, and E= 70 GPa for aluminum.
Steel
A= 480 mm²
Bronze
A = 650 mm²
Aluminum
A = 320 mm²
3P
4P
2P
1.0 m
1.5 m
P = 12.8 KNO
P = 6.8 KN
P = 1.4 KN
P = 0.4 KN
2.0 m
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