Silver nitrate is very susceptible to reactions that destroy it, catalyzed by short wavelength light, which is strongly absorbed by brown bottles.
Keep silver nitrate in brown bottles and/or cover the bottle with aluminium foil. This will prevent the decomposition of silver nitrate from light.
It is light sensitive.
Brief contact with silver nitrate creates brown, black, or purple stains on the skin, but increased exposure can cause burns.
It is a dark brown or amber color.
The brown ring test allows you to see if nitrate is present in a soloution. I nitrate is present then a brown ring will form around the testube.
Keep silver nitrate in brown bottles and/or cover the bottle with aluminium foil. This will prevent the decomposition of silver nitrate from light.
Silver nitrate is slightly photosensitive. In order to prevent it from under going decomposition or maintain its self properties it is stored in brown bottles.
It is light sensitive.
because it can decompose quickly if kept in transparent bottles
Brief contact with silver nitrate creates brown, black, or purple stains on the skin, but increased exposure can cause burns.
Some solvent or chemicals are sensitive to light, and they get oxidised when they are exposed to it.
It is a dark brown or amber color.
Silver bromide reacts chemically when exposed to light, which is why they use it to make photographic papers.
NaOH (aq) and AgNO3 (aq) react to create NaNO3 (aq) and AgOH (s), a brown precipitate.
In Chemistry the Brown Ring test is performed by add iron(II) sulfate with a solution of nitrate, then add sulphuric acid, a brown ring should form.
A common nitrate test is known as the brown ring test or iron ring test.It can be performed by adding FeSO4 to the solution, then slowly adding concentrated sulfuric acid and watching for a brown ring on the test tube, which will indicate the presence of the nitrate ion.[Fe(H2O)5NO]SO4 forms a brown ring in the middle of the solution produced by the reaction;the 'NO' part of this complex comes from the auto-redox of nitrate NO3- to NO (and O2) by sulfuric acid.Note that the presence of nitrite ions will interfere with this test, reacting directly as 'NO'.Do NOT use nitric acid, since it gives nitrate ion which gives a positive result anyway).
The brown ring test allows you to see if nitrate is present in a soloution. I nitrate is present then a brown ring will form around the testube.