Florine, Potassium, bromine, iodine, and astatine are all halides. The outcome could be any of those answers depending on how much moles there is/are contained.
an alcohol reacts with a strong base to from an alkoxide ion
urotropine is obtained!.. Urotropine or hexamethylene tetramine is obtained when formaldehyde reacts with ammonia
Magnesium sulfide (MgS) is obtained.
It's called halogenation. M - metal X - halogen 2M(s) + X2 (g) --> 2MX
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.
an alcohol reacts with a strong base to from an alkoxide ion
urotropine is obtained!.. Urotropine or hexamethylene tetramine is obtained when formaldehyde reacts with ammonia
the agx will presipate and one ether will produce
Functional groups are responsible for chemical reactions of molecules.
A bromoalkane may be obtained.
Magnesium sulfide (MgS) is obtained.
It's called halogenation. M - metal X - halogen 2M(s) + X2 (g) --> 2MX
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.
After this reaction ammonia (NH3) is obtained.
Magnesium sulfate is obtained.
Functional groups are responsible for chemical reactions of molecules.
Magnesium oxide (MgO) is obtained.