The strain rosette shown in the figure was used to obtain normal strain data at a point on the free surface of a machine component. ɛą= -250 µm/m, ɛ,= -35 µm/m, and ɛc= 390 µm/m.[E= 29000 ksi, G= 10900 ksi, a= 40 °] a X Determine the maximum absolute shear stress. 8660 psi 4190 psi 9810 psi 7020 psi 15000 psi
The strain rosette shown in the figure was used to obtain normal strain data at a point on the free surface of a machine component. ɛą= -250 µm/m, ɛ,= -35 µm/m, and ɛc= 390 µm/m.[E= 29000 ksi, G= 10900 ksi, a= 40 °] a X Determine the maximum absolute shear stress. 8660 psi 4190 psi 9810 psi 7020 psi 15000 psi
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![The strain rosette shown in the figure was used to obtain normal strain data at a point on the free surface of a machine
component. ɛa= -250 µm/m, ɛb= -35 µm/m, and ɛc= 390 µm/m.[E= 29000 ksi, G= 10900 ksi, a= 40 °]
y
X
a
Determine the maximum absolute shear stress.
8660 psi
4190 psi
9810 psi
7020 psi
15000 psi
O0000](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6c3433e8-5f55-4727-bf2a-2c4ca20d5dd5%2Fd94e8d1b-1237-4406-960c-7a97c8aa40ef%2Fufmjrjb_processed.png&w=3840&q=75)
Transcribed Image Text:The strain rosette shown in the figure was used to obtain normal strain data at a point on the free surface of a machine
component. ɛa= -250 µm/m, ɛb= -35 µm/m, and ɛc= 390 µm/m.[E= 29000 ksi, G= 10900 ksi, a= 40 °]
y
X
a
Determine the maximum absolute shear stress.
8660 psi
4190 psi
9810 psi
7020 psi
15000 psi
O0000
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