111) Which one is less harsh than the others? A) natural diamond 8000 B) titanium carbide 2500 C) tool steel 850 D) boron nitride 4000 E) aluminum oxide 1500 112) What is the number of electrons in the outermost shell in the formation of interatomic bonds? a) 5 B) 6 C) 8 D) 7 E) 4 113) Why is the cross-sectional area considered constant in the real engineering stress calculation? A) since the deformation of the load is considered insignificant in the design B) raises the cost C) because the surface area is unnecessary in the calculation of mechanical properties D) due to the properties of materials E) used for tensile strength only
111) Which one is less harsh than the others? A) natural diamond 8000 B) titanium carbide 2500 C) tool steel 850 D) boron nitride 4000 E) aluminum oxide 1500 112) What is the number of electrons in the outermost shell in the formation of interatomic bonds? a) 5 B) 6 C) 8 D) 7 E) 4 113) Why is the cross-sectional area considered constant in the real engineering stress calculation? A) since the deformation of the load is considered insignificant in the design B) raises the cost C) because the surface area is unnecessary in the calculation of mechanical properties D) due to the properties of materials E) used for tensile strength only
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
Related questions
Question
111) Which one is less harsh than the others?
A) natural diamond 8000
B) titanium carbide 2500
C) tool steel 850
D) boron nitride 4000
E) aluminum oxide 1500
112) What is the number of electrons in the outermost shell in the formation of interatomic bonds?
a) 5
B) 6
C) 8
D) 7
E) 4
113) Why is the cross-sectional area considered constant in the real engineering stress calculation?
A) since the deformation of the load is considered insignificant in the design
B) raises the cost
C) because the surface area is unnecessary in the calculation of
D) due to the properties of materials
E) used for tensile strength only
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