Hooke's Law (3D general) ${strain}_{x}$ $"strain"_x$

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Jul 24, 2020, 6:28:07 PM

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Dec 7, 2013, 1:36:56 AM

ε_{x} = \frac{σ_{x} - ν [lateral strain, longitudinal strain] \cdot (σ_{y} + σ_{z})}{E}

$epsilon_x = ( sigma_x - nu[ "lateral strain" , "longitudinal strain" ] * ( sigma_y + sigma_z )) / "E"$

Stress_x

$"Stress_x"$

Stress_y

$"Stress_y"$

Stress_z

$"Stress_z"$

Modulus of Elasticity

$"Modulus of Elasticity"$

Lateral Strain

$"Lateral Strain"$

Longitudinal Strain

$"Longitudinal Strain"$

• Poisson's Ratio by MichaelBartmess

This equation, Hooke's Law (3D general)

{strain}_{x}

$"strain"_x$ , is used in 0 pages

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Hooke's Law (3D general) strainxstrainx"strain"_x