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σ₁, σ₂, σ₃ are the three mutually perpendicular principal stresses with ε₁,ε₂ , and ε₃ being the strains produced in the respective directions of the stress, the strain energy stored per unit volume in a cube is

A12(σ12ϵ12+σ22ϵ22+σ32ϵ32)\frac 12(\sigma_1^2\epsilon_1^2+\sigma_2^2\epsilon_2^2+\sigma_3^2\epsilon_3^2)

B(σ1ϵ1+σ2ϵ2+σ3ϵ3)(\sigma_1\epsilon_1+\sigma_2\epsilon_2+\sigma_3\epsilon_3)

C12(σ1ϵ12+σ2ϵ22+σ3ϵ32)\frac 12(\sigma_1\epsilon_1^2+\sigma_2\epsilon_2^2+\sigma_3\epsilon_3^2)

D12(σ1ϵ1+σ2ϵ2+σ3ϵ3)\frac 12(\sigma_1\epsilon_1+\sigma_2\epsilon_2+\sigma_3\epsilon_3)

Answer:

12(σ1ϵ1+σ2ϵ2+σ3ϵ3)\frac 12(\sigma_1\epsilon_1+\sigma_2\epsilon_2+\sigma_3\epsilon_3)

Read Explanation:

Strain energy is the energy stored in a body due to deformation. For a 3-D body with mutually perpendicular principal stresses σ1,σ2,andσ3σ_1, σ_2, and σ_3 and strainsϵ1,ϵ2,andϵ3\epsilon_1,\epsilon_2, and \epsilon_3, the strain energy is given by 1/2(σ1ϵ1+σ2ϵ2+σ3ϵ3)1/2 ( \sigma_1 \epsilon_1+ \sigma_2 \epsilon_2+ \sigma_3 \epsilon_3) .

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