Solving Spinal Structure Mystery in Solid State Chemistry

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The discussion centers on the normal spinel structure in solid-state chemistry, with a focus on the arrangement of cations and anions within this lattice system. Participants clarify that the term "spinal" was a misspelling of "spinel." In a normal spinel structure, the +2 cation occupies one-eighth of the tetrahedral voids, while the +3 cation occupies half of the octahedral voids. The conversation also references external resources for further information on spinel structures and their crystal arrangements. The original inquiry seeks detailed insights into the lattice system of anions in normal spinel structures.
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In solid state chemistry, what's a normal spinal structure? I came across a question about it and I couldn't find any credible answers.
 
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Spinal?

Please elaborate, your question (even assuming I guess correctly what it is about) is rather cryptic.
 
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TeethWhitener, you're right. The book printed it wrong I guess. So the +2 cation occupies 1/8th of the tetrahedral voids and the +3 cation occupies half of the octahedral voids?
 
Borek said:
Spinal?

Please elaborate, your question (even assuming I guess correctly what it is about) is rather cryptic.
*spinel
Sorry about the spelling mistake :P
The original question was about the lattice system of the anions in a normal spinel structure.
 

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