The difference between strain and strain_y

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The discussion clarifies the difference between general strain (ε) and yield strain (εy) in the context of elastic modulus (E). General strain is defined as ε = lf - lo, while yield strain is expressed as εy = ΔLy/lo, where ΔLy represents elongation at yield. The subscript 'y' indicates values specific to the yield point, emphasizing that the equations apply differently before and after this point. The confusion arises from the perception that there is only one elastic modulus, but the equations reflect different stages of material behavior under stress. Understanding these distinctions is crucial for accurately interpreting material properties during deformation.
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Homework Statement



I am doing a lab. My textbook defines strain as ε= lf-lo and E = σ/ε. In my lab, E= σyy. εy = ΔLy/lo

I do not understand how they can both = ε as lf-lo is completely different from ΔLy/lo. ΔLy is "elongation at yeild" according to my lab. Why are they both labelled E if they are different? The y subscript, according to the lab, has to do with the yield point. I was under the impression that there was only 1 elastic modulus as after the yield point, stress and strain are no longer proportional and plastic deformation occurs.

Homework Equations



See above.


The Attempt at a Solution



I can only conclude I am either missing something or the equations mean the same thing, somehow.
 
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1question said:

Homework Statement



I am doing a lab. My textbook defines strain as ε= lf-lo
that is elongation, not strain... Did you copy this down incorrectly?
and E = σ/ε. In my lab, E= σyy. εy = ΔLy/lo

I do not understand how they can both = ε as lf-lo is completely different from ΔLy/lo. ΔLy is "elongation at yeild" according to my lab. Why are they both labelled E if they are different? The y subscript, according to the lab, has to do with the yield point. I was under the impression that there was only 1 elastic modulus as after the yield point, stress and strain are no longer proportional and plastic deformation occurs.
correct. Lf -Lo = ΔL = elongation, and ΔL/Lo = ε = σ/E

Homework Equations



See above.


The Attempt at a Solution



I can only conclude I am either missing something or the equations mean the same thing, somehow.
correct the definition for strain in your text. The y subscripts then refer to specific values of stress and strain etc at yield. Without the subscripts, these are the general equations within the proportional limit.
 
Thank you, I understand now.
 

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