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strain energy when you let go of the elastic it is transferred as kinetic energy
Strain force
Elastic Potential Energy
The Law of elasticity states that the strain (deformation) of an elastic object is proportional to the stress applied to it. Since stresses and strains have multiple independent components, the 'proportionality factor' is represented by a linear map (a tensor) constituting a matrix of real numbers.
Yeah, according to the Hooke's law of elasticity,the stress is proportional to the strain within elastic limit that is Stress ∝ Strain or Stress/Strain = constant. [The constant of proportionality is called as "modulus of elasticity" or "coefficient of elasticity".]
elastic strain is released when the two plates are either slipping past each other or pulling apart or coming together
Secondary wave (s wave )
If you stretch a rubber band then release it, it will return to its original shape. That is by definition elastic strain. Anything that returns to its original shape after being affected by force underwent elastic strain. If it is permanently deformed (ie you bent a paperclip out of place and it wont return to its original shape) then it passes the elastic strain region and suffered plastic strain.
this region is called the linear elastic region as such it is the linear elastic stress.
yes.......................it is a stretchy elastic rubber band
Energy stored as a change in shape
strain energy when you let go of the elastic it is transferred as kinetic energy
By using stress-strain curve.
stress is load per unit area; when an object is loaded it is under stress and strain and it stretches (strains) until it breaks at its ultimate strength. Stress i srelated to strain in the elastic region by Hooke's law: stress = elastic modulus times strain where modulus is a property of the material and strain is deflection over length
it depends on modulus of elasticity / young's modulus,,,,,,,which is ratio of stress and strain under elastic limit
Strain force
Viscoelasticity is the property of materials that are shown to be both viscous and elastic. Viscous materials are for example honey that resist shear flow and strain when stress is applied. Elastic materials strain but then quickly return to their original state. A viscoelastic material simply have elements of both.