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Answer :
Final answer:
Strontium nitrate, Sr(NO3)2, is an ionic compound that separates into its ions when it dissolves in water. The balanced equation for the process is: Sr(NO3)2 (s) -> Sr^2+ (aq) + 2NO3^- (aq). This portrays the process of dissolution.
Explanation:
The process of Sr(NO3)2, or Strontium nitrate, dissolving in water can be illustrated by a balanced chemical equation. When Strontium nitrate dissolves, it separates into its ions because it's an ionic compound. Here's the balanced equation:
Sr(NO3)2 (s) -> Sr^2+ (aq) + 2NO3^- (aq)
The '(s)' indicates that Strontium nitrate is solid, and '(aq)' means the ions are in aqueous solution, meaning they are dissolved in water. This process is called dissolution.
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Final answer:
The balanced equation for the dissolution of Sr(NO3)2(s) in water is Sr(NO3)2(s) ➞ Sr²⁺(aq) + 2NO3⁻(aq). This represents the dissociation of Sr(NO3)2 into its component ions in an aqueous solution. The equation shows that one Sr(NO3)2 formula unit produces one Sr²⁺ ion and two NO3⁻ ions.
Explanation:
The dissolution of Sr(NO3)2(s) in water can be represented by a balanced chemical equation that illustrates the dissociation of this compound into its constituent ions. The balanced equation for this process is: Sr(NO3)2(s) ➞ Sr²⁺(aq) + 2NO3⁻(aq).
Here, the (s) notation after Sr(NO3)2 indicates that it is in a solid state, while the (aq) notations indicate that the products are in an aqueous state, dispersed in water. The balanced equation makes clear that one Sr(NO3)2 formula unit produces one Sr²⁺ ion and two NO3⁻ ions in solution.
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