An unknown specimen having a rectangular cross section of dimensions 5 mm × 20 mm isdeformed in tension. Using the load-elongation data shown in the below table, answer thefollowing questions.(d) Determine the tensile strength.(e) Compute the modulus of resilience.(f) What is the ductility, in percent elongation?only d,e,and f An unknown specimen having a rectangular cross section of dimensions 5 mm x 20 mm isdeformed in tension. Using the load-elongation data shown in the below table, answer thefollowing questions.(a) Plot the data as engineering stress versus engineering strain.(b) Compute the modulus of elasticity.(c) Determine the yield strength at a strain offset of 0.002.(d) Determine the tensile strength.(e) Compute the modulus of resilience.(f) What is the ductility, in percent elongation?LoadLengthIbfmmin.752.9534,7409,1401,06575.0252.9542,05575.052.95512,9202,9003,72075.0752.95616,54075.1132.95718,3004,11075.152.95920,1704,53075.2252.96222,9005,14575.3752.96825,07026,8005,63575.5252.9736,02575.752.98228,64030,2403.0123.0716,44076.56,8007831,1007,00079.53.1331,2807,030813.18930,8206,9306,56082.53.24829,180843.30727,1906,11085.53.3665,4304,26524,140873.42518,97088.7253.493Fracture

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An unknown specimen having a rectangular cross section of dimensions 5 mm × 20 mm is deformed in tension. Using the load-elongation data shown in the below table, answer the following questions. (d) Determine the tensile strength. (e) Compute the modulus of resilience. (f) What is the ductility, in percent elongation? only d,e,and f

An unknown specimen having a rectangular cross section of dimensions 5 mm × 20 mm is deformed in tension. Using the load-elongation data shown in the below table, answer the following questions. (d) Determine the tensile strength. (e) Compute the modulus of resilience. (f) What is the ductility, in percent elongation? only d,e,and f

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter2: Axially Loaded Members

Section: Chapter Questions

Problem 2.7.5P: Determine the strain energy per unit volume (units of psi) and the strain energy per unit weight...

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