AgCl
AgI (silver iodide) has very low solubility in water, with only about 0.0013 g/100 mL at 20°C. This makes it practically insoluble in water.
ZnS is insoluble in water because it forms a sparingly soluble compound due to the strong bond between zinc and sulfur ions. Only a very small amount of ZnS can dissolve in water to form a solution.
Zinc sulfide is not soluble in water. Because of the strong attraction between the zinc and sulfur ions, water cannot easily pull the ions apart. Thus, this compound does not dissolve in water.
Silver ingots, as we normally see them, are usually essentially Pure Silver (element) with a very small percent of impurities alloyed (mixture.)
silver chloride forms, which is insoluble in aqua regia, HCl, or HNO3. silver chloride is soluble in ammonium solutions but this can become very dangerous, as fulminate forms and can detonate when dried, acidifying them with HCl to precipitate the silver and form ammonium chloride solution is a safe way to handle them. insolubility of silver chloride in aqua regia is one reason karat gold is inquatered, and parted in nitric before dissolving gold in aqua regia, the insoluble silver chloride will crust over the gold (from silver in the karat gold), and aqua regia cannot dissolve the gold with an layer of silver chloride protecting the gold from the acids. some small amounts of silver chloride is soluble in aqua regia, remember soluble, or insoluble are relative terms, and can be affected by temperature, PH and so on. metal refiner Richard B.
There is no reaction, because silver iodide is very insoluble.
AgI (silver iodide) has very low solubility in water, with only about 0.0013 g/100 mL at 20°C. This makes it practically insoluble in water.
Silver chromate is insoluble in water. It has very low solubility in water, which means that only a small amount will dissolve in solution.
NaNO3 is highly soluble in room-temperature water.
Silver nitrate is not a very stable compound.
Yes, some ionic compounds can be insoluble in water, depending on the strength of the attractive forces between the ions in the compound. Compounds with very low solubility are often referred to as insoluble, while those with higher solubility are considered soluble.
solubility of an ionic compound decreases in the presence of a common ion. A common ion in the solution, that is common to the ionic compound being dissolved. for example the silver ion in silver nitrate solution is common to the silver in silver chloride. the presence of a common ion must be taken into accounts when determining the solubility of an ionic compounds.
ZnS is insoluble in water because it forms a sparingly soluble compound due to the strong bond between zinc and sulfur ions. Only a very small amount of ZnS can dissolve in water to form a solution.
Compounds can be classified as organic( containing carbon) or inorganic( not containing carbon).
Zinc sulfide is not soluble in water. Because of the strong attraction between the zinc and sulfur ions, water cannot easily pull the ions apart. Thus, this compound does not dissolve in water.
Sodium chloride is highly polar (ionic in fact) where hexane is very not. The two don't attract at all, so each is insoluble in the other.
Of course; the reaction is: Ag+ + NO-3 + Na+ + Cl- = Na+ + NO-3 + AgCl Silver chloride is a white precipitate, very insoluble in water.