the agx will presipate and one ether will produce
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 paper with a gelatin-based solution is coated with silver nitrate solution, a light-sensitive layer called silver halide is formed. The silver halide particles react with light to create a latent image. This image can be developed and fixed to produce a visible photograph.
When silver nitrate reacts with light, it undergoes a photochemical decomposition process where it decomposes into silver metal, nitrogen dioxide gas, and oxygen gas. This reaction is a decomposition reaction and is commonly used in photography to form images on sensitive materials.
When silver nitrate reacts with ammonium chloride, a white precipitate of silver chloride forms along with ammonium nitrate. This reaction is a double displacement reaction where the silver ion in the silver nitrate switches places with the ammonium ion in the ammonium chloride, resulting in the formation of the two new compounds.
The ionic equation between halides and silver nitrate involves the cation from silver nitrate combining with the anion from the halide compound to form a precipitate. For example, with chloride ions, Ag^+ from silver nitrate reacts with Cl^- from the chloride compound to form solid silver chloride (AgCl) precipitate. The net ionic equation would show the formation of the silver halide precipitate.
Silver nitrate is added to halide salts to test for the presence of halide ions. When silver nitrate is added, a precipitation reaction occurs where silver halide compounds are formed. The color of the precipitate that forms can help identify the type of halide ion present in the salt.
Alcoholic silver nitrate reacts with alkyl halides to form silver halide and alkyl nitrate compounds. This reaction is commonly used in organic chemistry to identify the presence of alkyl halides in a sample.
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.
they are not reacting. So nothing happeningwith it.
The product is a silver halide insoluble in water.
The nitric acid reacts with other ions that might precipitate with silver nitrate. Doing this first gets these other unwanted precipitates out of the way. If you are testing with Fluoride as your halide remember that silver nitrate does not precipitate with Fluoride, so no precipitate does not mean that halide ions are not present.
By dissolving the silver nitrate in water, then stirring finely divided copper into the water. The copper will displace silver from the silver nitrate as a solid and form copper nitrate in the solution.
When paper with a gelatin-based solution is coated with silver nitrate solution, a light-sensitive layer called silver halide is formed. The silver halide particles react with light to create a latent image. This image can be developed and fixed to produce a visible photograph.
hyoliulo
When silver nitrate reacts with light, it undergoes a photochemical decomposition process where it decomposes into silver metal, nitrogen dioxide gas, and oxygen gas. This reaction is a decomposition reaction and is commonly used in photography to form images on sensitive materials.
When silver nitrate reacts with ammonium chloride, a white precipitate of silver chloride forms along with ammonium nitrate. This reaction is a double displacement reaction where the silver ion in the silver nitrate switches places with the ammonium ion in the ammonium chloride, resulting in the formation of the two new compounds.
When silver nitrate reacts with bicarbonate solution, no significant chemical reaction occurs. Both compounds remain dissociated in solution as silver nitrate (AgNO3) and bicarbonate ions (HCO3-), without forming any new products.