HW_CH_3 - IE 320 Spring 2003 Homework Ch 3 Introduction to Materials Science 3.3 If the atomic radius of aluminum is 0.143 nm calculate the volume

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Unformatted text preview: IE 320 - Spring 2003 Homework Ch. 3 Introduction to Materials Science 3.3 If the atomic radius of aluminum is 0.143 nm, calculate the volume of its unit cell in cubic meters. 3.10 Calculate the radius of a vanadium atom, given that V has a BCC crystal structure, a density of 5.96 g/cm3, and an atomic weight of 50.9 g/mol. 3.15 Below are listed the atomic weight, density, and atomic radius for three hypothetical alloys. For each determine whether its crystal structure is FCC, BCC, or simple cubic and then justify your determination. A simple cubic unit cell is shown in Figure 3.22. 2 1 IE 320 - Spring 2003 Introduction to Materials Science 3.34 Calculate the density of FeO, given that is has a rock salt crystal structure. 3.46 In terms of bonding, explain why silicate materials have relatively low densities. 3.51 Within a cubic unit cell, sketch the following directions: (a) [110]; (b) [121]; (c) [012]; (d) [133]; (e) [111]; (f ) [122]; (g) [123]; (h) [103]. 3.57 Determine the Miller indices for the planes shown in the following unit cell: 3 2 ...
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This note was uploaded on 03/27/2010 for the course ES 162 taught by Professor Ang during the Spring '10 term at Yeditepe Üniversitesi.

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HW_CH_3 - IE 320 Spring 2003 Homework Ch 3 Introduction to Materials Science 3.3 If the atomic radius of aluminum is 0.143 nm calculate the volume

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