Barium acetate plus silver.
Ba + 2AgC2H3O2 --> Ba(C2H3O2)2 + 2Ag
When barium chloride reacts with silver acetate, a white precipitate of silver chloride is formed, along with barium acetate remaining in solution. This is because silver chloride is insoluble in water, while barium acetate is soluble.
The acetate would combine with the bromide, leaving the silver in the sodium solution. With the sliver you could blow up the world Alas not so exciting. Mixed as solids, nothing would happen. Silver acetate has limited solubility in water, but if a solution were mixed with sodium bromide, you would probably see some off-white silver bromide precipitate.
The chemical formula for silver acetate is AgC2H3O2
One way to separate silver chloride from barium chloride is by adding sodium chromate solution. Silver chloride will form a red precipitate while barium chloride will not react. The precipitate can then be filtered out to separate the two compounds.
The products of the double-replacement reaction between potassium chloride (KCl) and silver acetate (AgC2H3O2) are silver chloride (AgCl) and potassium acetate (KC2H3O2). This reaction occurs because the potassium ions (K+) in potassium chloride switch places with the silver ions (Ag+) in silver acetate.
When barium chloride reacts with silver acetate, a white precipitate of silver chloride is formed, along with barium acetate remaining in solution. This is because silver chloride is insoluble in water, while barium acetate is soluble.
The acetate would combine with the bromide, leaving the silver in the sodium solution. With the sliver you could blow up the world Alas not so exciting. Mixed as solids, nothing would happen. Silver acetate has limited solubility in water, but if a solution were mixed with sodium bromide, you would probably see some off-white silver bromide precipitate.
When potassium chloride and silver acetate react, a double displacement reaction occurs. The potassium from potassium acetate and silver from silver chloride swap partners to form silver chloride and potassium acetate. Silver chloride is insoluble and precipitates out of the solution.
When silver nitrate is added to barium chloride, a white precipitate of silver chloride forms because silver chloride is insoluble in water. This occurs due to a double displacement reaction where the silver ions from silver nitrate react with the chloride ions from barium chloride to form silver chloride. The remaining solution would contain barium nitrate as the other product of the reaction.
When silver is mixed with vinegar, a chemical reaction occurs that produces silver acetate along with hydrogen gas. The silver acetate appears as a white precipitate in the solution, which can be easily observed. The reaction can be used to clean silverware as the silver acetate dissolves tarnish and dirt on the surface of the silver.
The balanced chemical equation for this reaction is: BaCl2 (aq) + 2AgNO3 (aq) → 2AgCl (s) + Ba(NO3)2 (aq). Silver chloride is insoluble in water and forms a white precipitate, while barium nitrate remains in solution.
silver acetate
The chemical formula for silver acetate is AgC2H3O2
Silver Acetate. It can also be called Silver Ethanoate and its formula can also be written as CH3COOAg.
Silver Acetate
One way to separate silver chloride from barium chloride is by adding sodium chromate solution. Silver chloride will form a red precipitate while barium chloride will not react. The precipitate can then be filtered out to separate the two compounds.
The reaction between silver and barium typically forms silver nitrate and barium nitrate. Silver and barium are both metals and can undergo a single displacement reaction where the more reactive metal, in this case, silver, displaces the less reactive metal, barium, in the compound.