At a temperature of 23.1 °C a 0.43-mm gap exists between the ends of the rods shown. At a later time when the temperature has reached 132.77°C, determine the magnitude of the normal stress (in MPa) in the steel rod if L = 311.87 mm and M = 250 mm. Round off the final answer to four decimal places. d M B В Aluminum Stainless steel A = 2000 mm² A = 800 mm² 100 CR

At a temperature of 23.1 °C a 0.43-mm gap exists between the ends of the rods shown. At a later time when the temperature has reached 132.77°C, determine the magnitude of the normal stress (in MPa) in the steel rod if L = 311.87 mm and M = 250 mm. Round off the final answer to four decimal places. d M B В Aluminum Stainless steel A = 2000 mm² A = 800 mm² 100 CR

Materials Science And Engineering Properties

1st Edition

ISBN:9781111988609

Author:Charles Gilmore

Publisher:Charles Gilmore

Chapter9: Time, Temperature, And Mechanical Properties

Section: Chapter Questions

Problem 9.3P

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British Gravitational Bg System Of Units

Measuring is the comparison of a particular physical quantity with its reference value. A unit is a fixed physical quantity. The length is a physical quantity. A physical quantity is the product of a unit and the numerical value we need to compare with. 

Question

1) will upvote anyone who will answer correctly. Correct decimal places please. Thanks

At a temperature of 23.1 °C a 0.43-mm gap exists
between the ends of the rods shown. At a later
time when the temperature has reached
132.77°C, determine the magnitude of
the normal stress (in MPa) in the steel rod if L =
311.87 mm and M = 250 mm. Round off the final
%3D
answer to four decimal places.
d
M
B
Aluminum
Stainless steel
A = 2000 mm²
A = 800 mm²
%3D
E = 75 GPa
E = 190 GPa
%3D
a = 23 × 10-6/°C
a = 17.3 × 10-6/°C.

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