Qu 3 Nickel (Ni) single crystal turbine blades burn less fuel at higher temperatures because blades are grown on [110] closed packed direction. Nickel (Ni) at 20°C is FCC, and has an atomic radius, R, of 0.125 nm. Draw a reduced-sphere unit cell for this crystal and draw and label the vector [110], starting from the origin (0, 0, 0). a) Calculate the length of the vector [110] in nanometers. Express your answer in nanometers to one significant figure. 0.125 × 10-19 b) Calculate the linear density of Nickel in the [110] direction in [atom/nm]. Express your answer in atoms/nm to one significant figure. X Ꮓ as. 0 Y
Qu 3 Nickel (Ni) single crystal turbine blades burn less fuel at higher temperatures because blades are grown on [110] closed packed direction. Nickel (Ni) at 20°C is FCC, and has an atomic radius, R, of 0.125 nm. Draw a reduced-sphere unit cell for this crystal and draw and label the vector [110], starting from the origin (0, 0, 0). a) Calculate the length of the vector [110] in nanometers. Express your answer in nanometers to one significant figure. 0.125 × 10-19 b) Calculate the linear density of Nickel in the [110] direction in [atom/nm]. Express your answer in atoms/nm to one significant figure. X Ꮓ as. 0 Y
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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Qu 3 Nickel (Ni) single crystal turbine blades burn less fuel at higher temperatures because blades are grown on [110] closed packed direction. Nickel (Ni) at 20°C is FCC, and has an atomic radius, R, of 0.125 nm. Draw a reduced-sphere unit cell for this crystal and draw and label the vector [I 10], starting from the origin (0, 0, 0).
a) Calculate the length of the vector [| 10] in nanometers. Express your answer in nanometers to one significant figure.
b) Calculate the linear density of Nickel in the [| 1 0] direction in [atom/nm]. Express your answer in atoms/nm to one significant figure.
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![Qu 3 Nickel (Ni) single crystal turbine blades burn less fuel at higher temperatures because blades are
grown on [110] closed packed direction. Nickel (Ni) at 20°C is FCC, and has an atomic radius, R, of
0.125 nm. Draw a reduced-sphere unit cell for this crystal and draw and label the vector [110], starting
from the origin (0, 0, 0).
a) Calculate the length of the vector [110] in nanometers. Express your answer in nanometers to one
significant figure. 0.125 × 10-19
b) Calculate the linear density of Nickel in the [110] direction in [atom/nm]. Express your answer
in atoms/nm to one significant figure.
X
Ꮓ
as.
0
Y](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fee22cf2f-b974-4b00-a3cf-09b388e7d65d%2Fa1a35ebb-351f-47c5-a8ff-a912cfed2c52%2F75g5wym_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Qu 3 Nickel (Ni) single crystal turbine blades burn less fuel at higher temperatures because blades are
grown on [110] closed packed direction. Nickel (Ni) at 20°C is FCC, and has an atomic radius, R, of
0.125 nm. Draw a reduced-sphere unit cell for this crystal and draw and label the vector [110], starting
from the origin (0, 0, 0).
a) Calculate the length of the vector [110] in nanometers. Express your answer in nanometers to one
significant figure. 0.125 × 10-19
b) Calculate the linear density of Nickel in the [110] direction in [atom/nm]. Express your answer
in atoms/nm to one significant figure.
X
Ꮓ
as.
0
Y
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