In normal motion, the load exerted on the hip joint is 2.5 times body weight. (a) Calculate the correspond- ing stress (in MPa) on an artificial hip implant with a cross-sectional area of 7.00 cm? in a patient weighing 65 kg. (b) Calculate the corresponding strain if the implant is made of a material which has an elastic modulus of 160 GPa.
In normal motion, the load exerted on the hip joint is 2.5 times body weight. (a) Calculate the correspond- ing stress (in MPa) on an artificial hip implant with a cross-sectional area of 7.00 cm? in a patient weighing 65 kg. (b) Calculate the corresponding strain if the implant is made of a material which has an elastic modulus of 160 GPa.
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter12: Static Equilibrium And Elasticity
Section: Chapter Questions
Problem 73AP: Two thin rods, one made of steel and the other of aluminium, are joined end to end. Each rod is 2.0m...
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In normal motion, the load exerted on the hip joint is
2.5 times body weight. (a) Calculate the correspond-
ing stress (in MPa) on an artificial hip implant with a
cross-sectional area of 7.00 cm? in a patient weighing
65 kg. (b) Calculate the corresponding strain if the
implant is made of a material which has an elastic
modulus of 160 GPa.
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