When aqueous solutions of silver nitrate and sodium iodide [note correct spelling] are mixed, silver iodide solid precipitates from the mixture.
The reaction is:LNaCl + AgNO3 = AgCl + NaNO3The white precipitate is silver chloride.
Sodium nitrate is more soluble than sodium chloride; sand is insoluble in water.
The percent of nitrogen in sodium nitrate is 16,47 %.
NaNO3 -Sodium -Nitrogen -Oxygen
White precipitate.
Aqueous lead nitrate plus aqueous sodium iodide produce solid lead iodide and aqueous sodium nitrate.
Silver chloride and sodium nitrate.
when sodium chloride and silver nitrate reacts then we get silver chloride and sodium nitrate.
Silver chloride is easily synthesized by combining aqueous solutions of silver nitrate and sodium chloride.
Produces Silver iodide precipitate and Sodium nitrate
Sodium carbonate is Na2CO3 Silver nitrate is AgNO3
Hydrated sodium, sulfate, silver, and nitrate ions. (The ions already exist in the sodium sulfate and silver nitrate solids, but may not be hydrated there.) since silver sulfate is not very soluble in water, most of the silver and sulfate ions will be removed from the water as solid precipitate, but some hydrated ions will remain in solution.
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When mixing these two reagents, a white precipitate, silver carbonate is formed.
conclusion of silver nitrate and sodium hyroxide
Silver bromide is insoluble in water and don't react with sodium nitrate.
The net ionic equation is Ag+(aq) + I- --> AgI(s) The sodium (Na+) and nitrate (NO3-) are spectators as always.