A rigid bar ABCD is supported by two bars as shown in the figure. There is no strain in the vertical bars before load P is applied. After load P is applied, the normal strain in rod (1) is -1380 μm/m. Determine the normal strain in rod (2) if there is a 1-mm gap in the connection at pin C before the load is applied. 240 mm B (1) O 1314 μm/m 1805 µm/m O 1947 μm/m O 1403 μm/m 1679 μm/m 360 mm (2) Rigid bar 900 mm C 140 mm D 1,500 mm
A rigid bar ABCD is supported by two bars as shown in the figure. There is no strain in the vertical bars before load P is applied. After load P is applied, the normal strain in rod (1) is -1380 μm/m. Determine the normal strain in rod (2) if there is a 1-mm gap in the connection at pin C before the load is applied. 240 mm B (1) O 1314 μm/m 1805 µm/m O 1947 μm/m O 1403 μm/m 1679 μm/m 360 mm (2) Rigid bar 900 mm C 140 mm D 1,500 mm
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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A rigid bar ABCD is supported by two bars as shown in the figure. There is no strain in the vertical bars before load P is applied. After load P is applied, the normal strain in rod (1) is -1380 μm/m. Determine the normal strain in rod (2) if there is a 1-mm gap in the connection at pin C before the load is applied.
Transcribed Image Text:A rigid bar ABCD is supported by two bars as shown in the figure. There is no strain in the vertical bars before load P is applied.
After load P is applied, the normal strain in rod (1) is -1380 μm/m. Determine the normal strain in rod (2) if there is a 1-mm gap
in the connection at pin C before the load is applied.
240 mm
B
(1)
O 1314 μm/m
1805 μm/m
O 1947 μm/m
O 1403 μm/m
1679 μm/m
360 mm
(2)
Rigid bar
900 mm
C
140 mm
D
1,500 mm
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