The information in the photo attached shows elastic properties of a human tibula bone. If you were to take a small cuboidal cross section of the tibula bone and apply the ultimate shear stress, what would be the resulting strain?(a) 1.0 %(b) 6.7 %(c) 10 %(d) 15 %(e) None of the above. **Material Properties Table**| Property | Modulus | Ultimate Stress ||---------------|--------------------|------------------|| Compression | 20 GPa (Y) | 200 MPa || Tension | 10 GPa (Y) | 100 MPa || Shear | 0.5 GPa (S) | 75 MPa |**Explanation:**The table presents the mechanical properties of a material under different types of stress. It includes values for both the modulus and the ultimate stress for each type:- **Compression:** - Modulus: 20 GPa (Gigapascals) - Ultimate Stress: 200 MPa (Megapascals)- **Tension:** - Modulus: 10 GPa - Ultimate Stress: 100 MPa- **Shear:** - Modulus: 0.5 GPa - Ultimate Stress: 75 MPaThe modulus values, denoted by GPa, indicate the material's stiffness under each type of stress, while the ultimate stress values, denoted by MPa, show the maximum stress the material can withstand before failure.

To calculate the shear strain for given shear stress and shear modulus of elasticity. Given, Shear…

The information in the photo attached shows elastic properties of a human tibula bone. If you were to take a small cuboidal cross section of the tibula bone and apply the ultimate shear stress, what would be the resulting strain?

The information in the photo attached shows elastic properties of a human tibula bone. If you were to take a small cuboidal cross section of the tibula bone and apply the ultimate shear stress, what would be the resulting strain?

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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