Materials get deformed when force is applied. Some of them regain their status when the applied force is removed. They are termed as elastic. Those of which not regaining are called plastic. There may be delay in the regaining in some materials. They are said to have got elastic aftereffect, since they have gone beyond the elastic limit. Repeated application and removal of force leads to fatigueness in the material. Fatigued materials may break at any point time and so are avoided.
The stress strain graph for two materials `A` and `B` is shown in the following figure:

The strength of the material `A` and `B` is `S_(A)` and `S_(B)`, respectively, while the longevity of plastic behaviour is `L_(A)` and `L_(B)`. Then

Materials get deformed when force is applied. Some of them regain their status when the applied force is removed. They are termed as elastic. Those of which not regaining are called plastic. There may be delay in the regaining in some materials. They are said to have got elastic aftereffect, since they have gone beyond the elastic limit. Repeated application and removal of force leads to fatigueness in the material. Fatigued materials may break at any point time and so are avoided. The stress strain graph for two materials A and B is shown in the following figure: If the intensity of A and B is E_(A) and E_(B) , respectively

Materials get deformed when force is applied. Some of them regain their status when the applied force is removed. They are termed as elastic. Those of which not regaining are called plastic. There may be delay in the regaining in some materials. They are said to have got elastic aftereffect, since they have gone beyond the elastic limit. Repeated application and removal of force leads to fatigueness in the material. Fatigued materials may break at any point time and so are avoided. The stress strain graph for two materials A and B is shown in the following figure: The time in which the two materials regain their original status is t_(A) and t_(B) related as t_(B)=2t_(B) . Then the material under elastic aftereffect (relatively) is

On applying external force beyond the elastic limit,

The material which practically does not exhibit elastic after effect is

The metal which do not break beyond elastic limit is

Of the following, the most elastic material is

On mixing impurities, the elasticity of a material

Elastic forces

When a force is applied on a body, Newton's second law is applicable to

On increasing temperature, the elasticity of a material