For the figure shown, have the following information: Bar (1) made of bronze Bar (2) made of aluminum E=70 GPa E-100 GPa A=515 mm The force in bar (2) is found to be 29 kN in tension, when the load P is applied a. Compute the stresses in bars 1 & 2. A=962 mm² b. Found the deflection of point A. c. Determine the load P.
For the figure shown, have the following information: Bar (1) made of bronze Bar (2) made of aluminum E=70 GPa E-100 GPa A=515 mm The force in bar (2) is found to be 29 kN in tension, when the load P is applied a. Compute the stresses in bars 1 & 2. A=962 mm² b. Found the deflection of point A. c. Determine the load P.
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 1.10.11P: A pressurized circular cylinder has a sealed cover plate fastened with steel bolts (see figure). The...
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![For the figure shown, have the following information:
Bar (1) made of bronze
Bar (2) made of aluminum
E =70 GPa
E=100 GPa
A=515 mm2
The force in bar (2) is found to be 29 kN in tension, when the load P is applied.
a. Compute the stresses in bars 1 & 2.
A=962 mm2
b. Found the deflection of point A.
c. Determine the load P.
Enter the stress of bar (2) in the box below in MPa upto 4 digits after the decimal point. Do not enter the units in the box.
Upload the pdf file in the next question. Only PDF files will be accepted. Any other file will be rejected and will NOT be evaluated.
(2)
0.8 m
B
to
0.4 m
1.1 m
0.5 m
0.6 m
(1)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Faa17d6cc-4a0b-4b21-a54c-e5a27e46f622%2F27412cf5-f620-417d-8f9a-4d1d2d135ae8%2Fmsnlp5_processed.jpeg&w=3840&q=75)
Transcribed Image Text:For the figure shown, have the following information:
Bar (1) made of bronze
Bar (2) made of aluminum
E =70 GPa
E=100 GPa
A=515 mm2
The force in bar (2) is found to be 29 kN in tension, when the load P is applied.
a. Compute the stresses in bars 1 & 2.
A=962 mm2
b. Found the deflection of point A.
c. Determine the load P.
Enter the stress of bar (2) in the box below in MPa upto 4 digits after the decimal point. Do not enter the units in the box.
Upload the pdf file in the next question. Only PDF files will be accepted. Any other file will be rejected and will NOT be evaluated.
(2)
0.8 m
B
to
0.4 m
1.1 m
0.5 m
0.6 m
(1)
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