A human femur undergoes bending and axial loading as shown below. The femur can be modeled as an isotropic linear elastic material with a Young's modulus of 20 GPa, an outer diameter of 2.5 cm, and an...


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A human femur undergoes bending and axial loading as shown below. The femur can be modeled as an<br>isotropic linear elastic material with a Young's modulus of 20 GPa, an outer diameter of 2.5 cm, and an<br>inner diameter of 1.5 cm.<br>y<br>2 cm<br>A<br>F<br>F<br>В<br>а)<br>the neutral axis and which side is in tension or compression. Do not provide stress magnitudes.<br>Plot the stress distribution at the cross-sectional plane defined by points A and B. Label<br>b)<br>(Recall: for this case, stress and strain are linearly related by one material constant.)<br>If point A experiences strain of magnitude 91 um/m, determine the magnitude of force F.<br>c)<br>section is now a circle rather than an annulus. Determine the new strain experienced at point A.<br>Assume the force F and cross-sectional area are unchanged from (b), but the bone cross<br>

Extracted text: A human femur undergoes bending and axial loading as shown below. The femur can be modeled as an isotropic linear elastic material with a Young's modulus of 20 GPa, an outer diameter of 2.5 cm, and an inner diameter of 1.5 cm. y 2 cm A F F В а) the neutral axis and which side is in tension or compression. Do not provide stress magnitudes. Plot the stress distribution at the cross-sectional plane defined by points A and B. Label b) (Recall: for this case, stress and strain are linearly related by one material constant.) If point A experiences strain of magnitude 91 um/m, determine the magnitude of force F. c) section is now a circle rather than an annulus. Determine the new strain experienced at point A. Assume the force F and cross-sectional area are unchanged from (b), but the bone cross

Jun 11, 2022
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