On a graph depicting stress versus strain, the elastic limit is represented as the point at which the curve begins to deviate from a straight line, indicating that the material will no longer return to its original shape after the load is removed. This point is typically marked at the end of the linear elastic region of the graph, where Hooke's Law is applicable. Beyond the elastic limit, the material enters the plastic deformation region, where permanent deformation occurs.
It depends on what variable is represented by the graph.
there is no graph... but most chance it's all real numbers
A Punnet Square
any graph that is not represented by a line,ie: parabola, hyperbola, circle, ellipse,etc
A line graph.
A perfectly elastic demand is represented on the traditional supply and demand graph with a straight horizontal line. An elastic demand that is not perfect would be represented as any line with a slope between 0 and -1.
No..!
Proportionality limit is the point upto which the stress remains directly proportional to strain whereas elastic limit is the point upto which the material remains elastic ie. if the stress is removed within elastic limit, then the material will regain its original shape and size.
yes
It depends on what variable is represented by the graph.
Proportionality limit is the point upto which the stress remains directly proportional to strain whereas elastic limit is the point upto which the material remains elastic ie. if the stress is removed within elastic limit, then the material will regain its original shape and size.
No.
In an inelastic graph, price changes have a small impact on quantity demanded, while in an elastic graph, price changes have a significant impact on quantity demanded.
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.
A graph that has its data represented in little symbolic pictures.
To increase the elastic limit of a material, you can improve its structural properties by alloying or heat treatment. Additionally, reducing defects and impurities in the material can help enhance its elasticity. Strengthening mechanisms like solid solution strengthening or grain refinement can also boost the elastic limit.
If a force is too great, the elastic limit will be exceeded. After the elastic limit is an area called the plastic region. The object may be stretched further in this area, however it will not returned to its original shape and will be permanently distorted. Eventually, the object will reach its breaking point. If the force applied is within the elastic limit, the object will return to its original shape.