Coordination Number and Geometry

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SUMMARY

The discussion focuses on calculating the minimum radius ratio for a coordination number of 8 in cubic geometry, specifically using the equations 2R + 2r = √3 l and l = 2R. R represents the larger ion radius, r the smaller ion radius, and l the cube edge length. The relationship arises from the geometric arrangement of ions within the cube, where the diagonal of the cube (√3 l) accounts for the positioning of the ions. The clarification provided by OlderDan helps the original poster understand the derivation of the first equation.

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  • Understanding of coordination numbers in materials science
  • Familiarity with cubic geometry and its properties
  • Basic knowledge of ionic radii and their significance
  • Ability to manipulate algebraic equations
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  • Study the derivation of coordination numbers in different geometries
  • Explore the implications of ionic radius ratios in crystal structures
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Materials scientists, chemists, and students studying crystallography or solid-state physics will benefit from this discussion, particularly those interested in the geometric and mathematical relationships of ionic compounds.

mathwurkz
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I am trying to understand a sample problem in this text I have about materials science. The question is to calculate the minimum radius ration for a coordination number of 8. The coordination geometry is cubic. What I don't understand in this problem is one of the two equations they use to solve the for the ratio.

R is the larger ion radius, r is the smaller ion radius and l is the cube length edge.

Now what I don't get is how the book comes up with this relationship.

2R + 2r = \sqrt{3}\ l

The second expression l = 2R, I understand since the two large ions are touching each other, their radius will make up the length of the cube edge. They substitute this equation in the other and solve for \frac{r}{R} It's just that I don't understand where that first equation comes from.
 
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mathwurkz said:
I am trying to understand a sample problem in this text I have about materials science. The question is to calculate the minimum radius ration for a coordination number of 8. The coordination geometry is cubic. What I don't understand in this problem is one of the two equations they use to solve the for the ratio.

R is the larger ion radius, r is the smaller ion radius and l is the cube length edge.

Now what I don't get is how the book comes up with this relationship.

2R + 2r = \sqrt{3}\ l

The second expression l = 2R, I understand since the two large ions are touching each other, their radius will make up the length of the cube edge. They substitute this equation in the other and solve for \frac{r}{R} It's just that I don't understand where that first equation comes from.

\sqrt{3}\ l is the diagonal of the cube. Each corner is occupied by the larger ion, with the smaller ion fitting in the space between the large ions.
 
Ok. Great I understand it now. Thanks a lot OlderDan
 

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