The state of a plane strain at a point has the components Ex 500 (10-6), ɛy = 250 (10-5) and Yxy 200 (10-6). Determine the principal strains and the maximum in plane shear strain. %3D Select one: E1 = 535 (10-), ɛ2 = -215 (10-) and ymax in-plane = -320 (10-°). E1 = 535 (10-), ɛ2 = 215 (10-°) and Ymax in-plane = 160 (10-°). E1 = 535 (10-), E2 = -215 (10-) and ymax in-plane = 320 (10-*). E = 535 (10-), 82 = 215 (10°) and ymax in-plane 320 (10-6). %3D !! -535 (10-6), e2 = -215 (10 ) and ymax in-plane = -320 (10-6). E1 =

Mechanics of Materials (MindTap Course List)
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Chapter7: Analysis Of Stress And Strain
Section: Chapter Questions
Problem 7.7.19P: During a test of an airplane wing, the strain gage readings from a 45° rosette (see figure) are as...
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The state of a plane strain at a point has the components &x
500 (10-5), ɛy = 250 (10-6)
and Yxy
= 200 (10-6). Determine the principal strains and the maximum in plane shear strain.
Select one:
E1 = 535 (10 ), e2 = -215 (10-) and ymax in-plane = -320 (10 ).
%3D
= 535 (10-), E = 215 (10) and ymax in-plane = 160 (10).
E = 535 (10), ɛ2 = -215 (10°) and ymax in-plane =
320 (10).
E = 535 (10-), 82 = 215 (10) and ymax in-plane = 320 (10).
E1 = -535 (10) E2 = -215 (10) and ymax in-pare = -320 (10°).
Transcribed Image Text:The state of a plane strain at a point has the components &x 500 (10-5), ɛy = 250 (10-6) and Yxy = 200 (10-6). Determine the principal strains and the maximum in plane shear strain. Select one: E1 = 535 (10 ), e2 = -215 (10-) and ymax in-plane = -320 (10 ). %3D = 535 (10-), E = 215 (10) and ymax in-plane = 160 (10). E = 535 (10), ɛ2 = -215 (10°) and ymax in-plane = 320 (10). E = 535 (10-), 82 = 215 (10) and ymax in-plane = 320 (10). E1 = -535 (10) E2 = -215 (10) and ymax in-pare = -320 (10°).
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