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When an axial load is applied to the ends of the bar shown in the figure, the total elongation of the bar between joints A and C is 0.19 in In segment (2), the normal strain is measured as 1,900 pin./in. Assume L₁ = 42 in. and L₂ = 78 in. Determine (a) the elongation of segment (2). (b) the normal strain in segment (1) of the bar. P Answers: (a) in.6₂ = (b) E; = (1) L₁ B (2) L2 in. uin./in. C P

When an axial load is applied to the ends of the bar shown in the figure, the total elongation of the bar between joints A and C is 0.19 in In segment (2), the normal strain is measured as 1,900 pin./in. Assume L₁ = 42 in. and L₂ = 78 in. Determine (a) the elongation of segment (2). (b) the normal strain in segment (1) of the bar. P Answers: (a) in.6₂ = (b) E; = (1) L₁ B (2) L2 in. uin./in. C P

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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When an axial load is applied to the ends of the bar shown in the figure, the total elongation of the bar between joints A and C is 0.19 in. In segment (2), the normal strain is measured as 1,900 pin./in. Assume L₁ = 42 in. and L₂ = 78 in. Determine (a) the elongation of segment (2). (b) the normal strain in segment (1) of the bar. P Answers: (a) in.6₂ = (b) Ex = (1) L₁ B (2) L2 in. uin./in. C P
Transcribed Image Text:When an axial load is applied to the ends of the bar shown in the figure, the total elongation of the bar between joints A and C is 0.19 in. In segment (2), the normal strain is measured as 1,900 pin./in. Assume L₁ = 42 in. and L₂ = 78 in. Determine (a) the elongation of segment (2). (b) the normal strain in segment (1) of the bar. P Answers: (a) in.6₂ = (b) Ex = (1) L₁ B (2) L2 in. uin./in. C P
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