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Li3N (lithium nitride) crystallizes in a hexagonal structure, specifically in the space group P6/mmm. In this structure, lithium ions occupy two different positions, while nitrogen ions arrange in a planar configuration. The correct frame for Li3N typically emphasizes its ionic bonding, with lithium providing cationic charge and nitrogen forming an anionic framework. This arrangement contributes to its unique properties, such as high ionic conductivity and thermal stability.
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Lithium nitride has the chemical formula Li3N.?
Yes - that is correct.
What is the chemical formula for the Lithium nitride?
The chemical formula for lithium nitride is Li3N.
What kind of blond is li3n?
what kind of bond is li3n
What is lithium plus nitrogen?
Li3N; the lithium ion has a charge of +1 (Li+) while the nitride ion has a charge of -3 (N3-)
What is Li3N name?
Li3N is lithium nitride
What is the oxidation number of Li3N?
The oxidation number of Li in Li3N is +1, as it is a Group 1 element. The nitrogen (N) in Li3N has an oxidation number of -3.
What is symbol and oxidation number for Li3N?
The chemical symbol for lithium nitride is Li3N. In Li3N, each lithium atom has an oxidation number of +1, while the nitrogen atom has an oxidation number of -3.
What is the name of the binary ionic compound Li3N?
The name of the binary ionic compound Li3N is lithium nitride.
What is the formula of the compound of lithium and nitrogen?
The compound formed between lithium and nitrogen is lithium nitride, with the chemical formula Li3N.
What is the name Li3N?
Lithium Nitride
What kind of bond is li3n?
Li3N, lithium nitride, forms an ionic bond. Lithium is a metal that donates its electron to nitrogen, a nonmetal, to form a stable ionic compound.
How many moles of lithium are needed to produce 0.31 mol of Li3N when the reaction is carried out in the presence of excess nitrogen?
The balanced chemical equation for the formation of lithium nitride (Li3N) from lithium and nitrogen is: [ 6 \text{Li} + \text{N}_2 \rightarrow 2 \text{Li}_3\text{N} ] From the equation, 6 moles of lithium produce 2 moles of Li3N. Therefore, to produce 0.31 moles of Li3N, you would need ( 0.31 \text{ mol Li3N} \times \frac{6 \text{ mol Li}}{2 \text{ mol Li3N}} = 0.93 \text{ mol Li} ). Thus, 0.93 moles of lithium are required.
