A compound bar consisting of bronze, aluminum, and steel segments is loaded axially as shown in the figure. The cross-sectional area of the bronze, aluminum, and steel are 412 mm2, 601 mm2 , and 260 mm2 respectively.Determine the change in length (in mm) of the bar if P = 30280 N.The moduli of elasticity are 81.17 GPa for bronze ,71.07 GPafor aluminum , and 202.36 GPa for steel . Round off the final answer to four decimal places.
A compound bar consisting of bronze, aluminum, and steel segments is loaded axially as shown in the figure. The cross-sectional area of the bronze, aluminum, and steel are 412 mm2, 601 mm2 , and 260 mm2 respectively.Determine the change in length (in mm) of the bar if P = 30280 N.The moduli of elasticity are 81.17 GPa for bronze ,71.07 GPafor aluminum , and 202.36 GPa for steel . Round off the final answer to four decimal places.
Engineering Fundamentals: An Introduction to Engineering (MindTap Course List)
5th Edition
ISBN:9781305084766
Author:Saeed Moaveni
Publisher:Saeed Moaveni
Chapter12: Electric Current And Related Variables In Engineering
Section12.2: Electrical Circuits And Components
Problem 6BYG
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A compound bar consisting of bronze, aluminum, and steel segments is loaded axially as shown in the figure. The cross-sectional area of the bronze, aluminum, and steel are 412 mm2, 601 mm2 , and 260 mm2 respectively.Determine the change in length (in mm) of the bar if P = 30280 N.The moduli of elasticity are 81.17 GPa for bronze ,71.07 GPafor aluminum , and 202.36 GPa for steel . Round off the final answer to four decimal places.
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