agno3
Two types: silver (Ag+) and chromate (CrO4-2) And within the formula (Ag2CrO4) there are two silver ions and one chromate ion for a total of three ions.
if it's copper(II) nitride, then it's Cu3N2 (it's nitride by the way not nitrade)
Formula: Ca3N2
Silver ions are only one half of a ionic bond. Take a simple ionic compound, one half of which is silver, for example silver bromide. This contains both Ag2+ (silver) and Br-(Bromine) ions. The bonds between these two different ions are ionic bonds
agno3
because it can decompose quickly if kept in transparent bottles
There is no such thing as "nitrade." Nitrate is NO3; nitride is N3.
Two types: silver (Ag+) and chromate (CrO4-2) And within the formula (Ag2CrO4) there are two silver ions and one chromate ion for a total of three ions.
if it's copper(II) nitride, then it's Cu3N2 (it's nitride by the way not nitrade)
Some of the silver ions from the silver nitrate solution are deposited as metallic silver on the contacted parts of the zinc vessel and are replaced by half as many zinc ions in the solution.
There is no such thing as "nitrade."The formula for beryllium nitrate is Be(NO3)2; the formula for beryllium nitride is Be3N2.
No you need more copper
Formula: Ca3N2
Silver ions and Fluoride ions put together.
Silver ions are only one half of a ionic bond. Take a simple ionic compound, one half of which is silver, for example silver bromide. This contains both Ag2+ (silver) and Br-(Bromine) ions. The bonds between these two different ions are ionic bonds
Hydrated sodium, sulfate, silver, and nitrate ions. (The ions already exist in the sodium sulfate and silver nitrate solids, but may not be hydrated there.) since silver sulfate is not very soluble in water, most of the silver and sulfate ions will be removed from the water as solid precipitate, but some hydrated ions will remain in solution.