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In physics, Hooke's law of elasticity states that if a force (F) is applied to an elastic spring or prismatic rod (with length L and cross section A), its extension is linearly proportional to its tensile stress σ and modulus of elasticity (E):

ΔL = 1/E × F × L/A = 1/E × L × σ

It is named after the 17th century physicist Robert Hooke, who initially published it as the anagram ceiiinosssttuv, which he later revealed to mean ut tensio sic vis, or as the extension, the force.

The law holds up to a limit, called the elastic limit, or limit of elasticity, after which the metal will enter a condition of ' yield' and the spring will suffer plastic deformation up to the plastic limit or limit of plasticity, after which it will eventually break if the force is further increased (see tensile strength).

Applications of the law include spring operated weighing machines. Originally the law applied only to stretched springs, but subject to physical constraints it also applies to compression springs.

1 Spring equation

The most commonly encountered form of Hooke's law is probably the spring equation, which relates the force exerted by a spring to the distance it is stretched by , where k is the "spring constant" and x is the displacement from equilibrium.

The potential energy associated to this force is therefore .

2 Generalized Hooke's law

When working a with three-dimensional stress state, a 4^th order tensor (C_ijkl) containing 16 elastic coefficients must be defined to link the stress tensor (σ_ij) and the strain tensorThe strain tensor [ε] is a symmetric tensor used to quantify the strain of an object undergoing a 3-dimensional deformation: the diagonal coefficients ε are the relative change in length in the direction of the i direction (along the x axi (or Green tensor) (ε_kl).

Continuum mechanicsContinuum mechanics is a branch of physics (specifically mechanics) that deals with continuous matter, including both solids and fluids (i. liquids and gases). The fact that matter is made of atoms and that it commonly has some sort of heterogeneous micro

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