Material 1 will be having the largest Young's modulus followed by Material 5, Material 3, Material 2 and Material 4.
Answer:
Option C.
Explanation:
Materials can be classified based on their elastic nature. Elasticity is the property of an object to return to its original state after deformation is removed. So the deformation can be occurred on that object due to the force or stress acting on that object.
As per Hooke's law, the stress acting on any object is directly proportional to the deformation or strain experienced by that object. And the constant of proportionality is termed as Young's modulus.
Young's modulus = Stress/Strain
So from the table, the young's modulus for all the materials are found as below.
Material 1 = Stress/Strain = 775/7.34E-06 = 106 ×[tex]10^{6}[/tex]
Material 2 = 900/1.86E-02=48400
Material 3 = 1200/2.55E-05 = 471×[tex]10^{5}[/tex]
Material 4 = 1500/3.95E-03=389×[tex]10^{3}[/tex]
Material 5 = 2500/2.53E-05=988×[tex]10^{5}[/tex]
So as per the given calculations, Material 1 will be having the largest Young's modulus followed by Material 5, Material 3, Material 2 and Material 4.
The right option is the option in which the materials are arranged in order of decreasing values of Young Modulus.
The quantity called Young Modulus of a material is defined as the ratio is stress to strain. The quantity can be used to determine the tensile strength of a material hence its possible application.
Since the table was not well rendered, we can't exactly calculate the Young Modulus of each material. However, the right option is the option in which the materials are arranged in order of decreasing values of Young Modulus.
Learn more about Young Modulus: https://brainly.com/question/8073802
