. In a uniaxial tension test, a dog-bone-shaped specimen is pulled in a machine. During the test, the force applied to the specimen, F, and the length of a gage section, L, are measured. The true stress, o, , and the true strain, &,, are defined by: 0₁ F (KN) L (mm) = FL A Lo -; &₁ = In L where A and Lo are the initial cross-sectional area and gage length, respectively. The true stress-strain curve in the region beyond yielding is often modeled by: o₁ = Ken The following are values of F and L measured in an experiment. Use the linearized form of the above equation determining the value of the coefficients K and m that best fit the data. The initial cross-sectional area and gage length are A = 1.25-10 m² and Lo=0.0125m. 24.6 29.3 31.5 33.3 34.8 35.7 36.6 37.5 38.8 39.6 40.4 12.58 12.82 12.91 12.95 13.05 13.21 13.35 13.49 14.08 14.21 14.48

. In a uniaxial tension test, a dog-bone-shaped specimen is pulled in a machine. During the test, the force applied to the specimen, F, and the length of a gage section, L, are measured. The true stress, o, , and the true strain, &,, are defined by: 0₁ F (KN) L (mm) = FL A Lo -; &₁ = In L where A and Lo are the initial cross-sectional area and gage length, respectively. The true stress-strain curve in the region beyond yielding is often modeled by: o₁ = Ken The following are values of F and L measured in an experiment. Use the linearized form of the above equation determining the value of the coefficients K and m that best fit the data. The initial cross-sectional area and gage length are A = 1.25-10 m² and Lo=0.0125m. 24.6 29.3 31.5 33.3 34.8 35.7 36.6 37.5 38.8 39.6 40.4 12.58 12.82 12.91 12.95 13.05 13.21 13.35 13.49 14.08 14.21 14.48

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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