At a point in a structure, there are two mutually perpendicular tensile stresses of 800 N/cm² and 400 N/cm². If the Poisson's ratio is 0.25, what would be the equivalent stress in simple tension according to maximum principal strain theory?

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At a point in a structure, there are two mutually perpendicular tensile stresses of 800 N/cm² and 400 N/cm². If the Poisson's ratio is 0.25, what would be the equivalent stress in simple tension according to maximum principal strain theory?

A1200 N/cm²

B400 N/cm²

C900 N/cm²

D700N/cm²

Answer:

D. 700N/cm²

Read Explanation:

Given:

\sigma_{1} = 800N / c m ^ 2

\sigma_{2} = 400N / c m ^ 2

\mu = 0.25

\sigma_{1} - \mu \sigma_{2} \le ( \sigma_y ) \Rightarrow 800-0.25\times 400= \sigma_{equivalent} =700 N / c m ^ 2

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