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A single crystal of copper yields under a shear stress of 0.62 MPa. The shear modulus of copper is 7.9106 psi. Calculate the approximate ratio of the theoretical to the experimental shear strengths.
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A single crystal of copper yields under a shear stress of 0.62 MPa. The shear modulus of copper is 7.9106 psi. Calculate the approximate ratio of the theoretical to the experimental shear strengths.

User Miske
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1 Answer

3 votes

Answer:

6370

Step-by-step explanation:

Given data:

shear stress = 0.62 MPa

shear modulus of copper = 7.9 GPa

Determine the approximate ratio of the theoretical to the experimental shear strengths

lets assume the theoretical yield shear stress = 1/2 shear modulus

theoretical yield shear stress = 7.9 / 2 = 3.95 GPa ≈ 3950 MPa

required ratio =
(3950)/(0.62) ≈ 6370

User Bison
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