Will Zn(NO3)2 react in a metathesis reaction with NACl, BACL2, NAIO3 or AL2(SO4)3
To determine whether Zn(NO3)2 will react in a metathesis reaction with the given compounds (NaCl, BaCl2, NaIO3, or Al2(SO4)3), we need to examine the solubility rules and the possible reactions that can occur.
Metathesis reactions, which are also known as double displacement or exchange reactions, involve the exchange of ions between two compounds. In this type of reaction, the cations and anions swap places to form new compounds.
Let's go through each compound one by one:
1. NaCl (Sodium Chloride): According to the solubility rules, most metal chlorides are soluble, including sodium chloride. Thus, if a reaction were to occur between Zn(NO3)2 and NaCl, a metathesis reaction could be possible. The possible outcome would be the formation of ZnCl2 and NaNO3.
2. BaCl2 (Barium Chloride): Similar to sodium chloride, barium chloride is also soluble according to the solubility rules. Therefore, a metathesis reaction between Zn(NO3)2 and BaCl2 could result in the formation of ZnCl2 and Ba(NO3)2.
3. NaIO3 (Sodium Iodate): Sodium iodate is soluble in water, making it a potential candidate for a metathesis reaction. The reaction between Zn(NO3)2 and NaIO3 could form Zn(IO3)2 and NaNO3.
4. Al2(SO4)3 (Aluminum Sulfate): Aluminum sulfate is soluble in water. However, it is less likely to react with zinc nitrate in a metathesis reaction. Aluminum sulfate usually undergoes hydrolysis, forming a colloidal suspension when mixed with water. Therefore, it is unlikely to produce a metathesis reaction with Zn(NO3)2.
In conclusion, based on the solubility rules, Zn(NO3)2 could potentially react in a metathesis reaction with NaCl, BaCl2, and NaIO3, forming ZnCl2, Ba(NO3)2, and Zn(IO3)2 respectively. However, it is not expected to react with Al2(SO4)3 under typical conditions.