A copper specimen of Young's Modulus 120 GPa is subjected to a tensile test in a laboratory and the following data are obtained. a) Initial length of the Specimen = 395 mm; b) Initial diameter of Specimen = 10 mm; c) Yield Stress = 133 N/mm2; d) Ultimate Stress = 228 N/mm2; e) Fracture Stress = 178 N/mm2; g) % of Elongation = 59 %; h) % of Reduction in area = 41 %. Determine the following i) The elongation of the specimen at load 101 kN (in mm) ii) Maximum load (in N) iii) Fracture load (in N) iv) Final Length (in mm) v) Final Diameter
A copper specimen of Young's Modulus 120 GPa is subjected to a tensile test in a laboratory and the following data are obtained. a) Initial length of the Specimen = 395 mm; b) Initial diameter of Specimen = 10 mm; c) Yield Stress = 133 N/mm2; d) Ultimate Stress = 228 N/mm2; e) Fracture Stress = 178 N/mm2; g) % of Elongation = 59 %; h) % of Reduction in area = 41 %. Determine the following i) The elongation of the specimen at load 101 kN (in mm) ii) Maximum load (in N) iii) Fracture load (in N) iv) Final Length (in mm) v) Final Diameter
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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A copper specimen of Young's Modulus 120 GPa is subjected to a tensile test in a laboratory and the following data are obtained.
a) Initial length of the Specimen = 395 mm;
b) Initial diameter of Specimen = 10 mm;
c) Yield Stress = 133 N/mm2;
d) Ultimate Stress = 228 N/mm2;
e) Fracture Stress = 178 N/mm2;
g) % of Elongation = 59 %;
h) % of Reduction in area = 41 %.
Determine the following
i) The elongation of the specimen at load 101 kN (in mm)
ii) Maximum load (in N)
iii) Fracture load (in N)
iv) Final Length (in mm)
v) Final Diameter
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