Pale yellow precipitates of silver bromide are formed.
AgNO3 + LiBr ----> AgBr + LiNO3
When ethyl bromide, an alkyl halide, reacts with alcoholic silver nitrate (AgNO3), silver bromide (AgBr) and ethanol are produced. This reaction is a substitution reaction where the bromine in ethyl bromide is replaced by the nitrate ion from silver nitrate.
The precipitate formed when potassium bromide and silver nitrate are mixed is silver bromide (AgBr), which is a white solid. This reaction is a double displacement reaction where the silver ions from silver nitrate exchange with the bromide ions from potassium bromide to form the insoluble silver bromide.
One common test for bromide ions is the silver nitrate test, where adding silver nitrate to a solution containing bromide ions produces a cream-colored precipitate of silver bromide. Another test is the starch-iodide test, which involves adding starch and iodine solution to the sample, causing a blue color to form in the presence of bromide ions.
When silver nitrate and sodium bromide are mixed together in a laboratory setting, a white precipitate of silver bromide is formed. This reaction is a double displacement reaction where the silver ions from silver nitrate combine with the bromide ions from sodium bromide to form an insoluble compound. The formation of the precipitate indicates that a chemical reaction has occurred.
The reaction between sodium bromide (NaBr) and silver nitrate (AgNO3) results in the formation of silver bromide (AgBr) and sodium nitrate (NaNO3). The balanced chemical equation for this reaction is: 2NaBr + AgNO3 → 2AgBr + 2NaNO3
The reaction is:AgNO3 + KBr = AgBr = KNO3Silver bromide is a precipitate.
When silver nitrate is added to a solution containing bromide ions, a white precipitate of silver bromide will form. This is due to a chemical reaction between the silver nitrate and bromide ions, resulting in the insoluble silver bromide precipitate.
The reaction between sodium bromide and silver nitrate forms silver bromide and sodium nitrate. The product is a white precipitate of silver bromide, while sodium nitrate remains dissolved in the solution as a spectator ion.
Silver bromide and sodium nitrate will react to form silver nitrate and sodium bromide as the products. The precipitate formed will be silver bromide, which is insoluble in water and will appear as a white solid in the reaction mixture.
When ethyl bromide, an alkyl halide, reacts with alcoholic silver nitrate (AgNO3), silver bromide (AgBr) and ethanol are produced. This reaction is a substitution reaction where the bromine in ethyl bromide is replaced by the nitrate ion from silver nitrate.
When chloride and bromide ions are mixed with silver nitrate, a white precipitate of silver chloride and a pale yellow precipitate of silver bromide are formed. This reaction is a qualitative test to distinguish between chloride, bromide, and nitrate ions.
The precipitate formed when potassium bromide and silver nitrate are mixed is silver bromide (AgBr), which is a white solid. This reaction is a double displacement reaction where the silver ions from silver nitrate exchange with the bromide ions from potassium bromide to form the insoluble silver bromide.
The product of strontium bromide and silver nitrate is strontium nitrate and silver bromide. This is because there is a double displacement reaction between the two compounds where the cations and anions switch partners.
pudding
When aqueous bromide and aqueous silver nitrate mix, a white precipitate of silver bromide is formed. This is a chemical reaction that involves the exchange of ions: Ag⁺ + Br⁻ → AgBr↓.
The balanced equation for sodium bromide (NaBr) and silver nitrate (AgNO3) is: 2NaBr + AgNO3 → 2NaNO3 + AgBr.
One common test for bromide ions is the silver nitrate test, where adding silver nitrate to a solution containing bromide ions produces a cream-colored precipitate of silver bromide. Another test is the starch-iodide test, which involves adding starch and iodine solution to the sample, causing a blue color to form in the presence of bromide ions.