alcl3+hno3
AgNO3 + H2O ---> HNO3 + AgOH
balanced equation:- AgNO3(aq) + HBr(aq) ----> AgBr(s) + HNO3(aq)
Silver Nitrate + Sodium Chloride --> Silver Chloride + Sodium Nitrate AgNO3 + NaCL --> AgCL + NaNO3
okay, we can see in the other way, if you have enough chemicals to use for those (H2 and H2S) --method 1: you can use your nose to smell it, the H2S has the smell, like ... rotten eggs, smell it and you will see, lol, but especially that is really harmful, the other one is H2 --method 2: you can use CuO (black) include heat, so with heat, the H2 makes the CuO turn red, because H2+CuO --> Cu+ H2O, because the red color is the color of Cu, the other one is H2S --method 3: we use the H2S , we put the AgNO3 (aq) we can see the H2S reacts with the AgNO3 and we see the black color, because AgNO3 + H2S --> Ag2S + 2HNO3, the black color is the color of Ag2S after reaction, with H2, it can not react with AgNO3, I'm not sure about this one because, if H2 reacts with AgNO3 , the products are HNO3 and Ag, but HNO3 is the strong acid, so the products will become the reactants, so jsut look the black color in the test tube which belong to the Ag2S we have many other ways to distinguish these one, but with me these methods is enough for you to be easy to distinguish H2 and H2S
Silver is disolved in the acid as Silver Nitrate. Silver + Nitric Acid -> Silver Nitrate + Hydrogen
Silver nitrate doesn't react with nitric acid.
AgNO3 + H2O ---> HNO3 + AgOH
AgNO3(aq) + HCl(aq) --> AgCl(s) + HNO3(aq)
by adding AgNO3, ppt. is formed in h2so4 not hno3.
The reaction is:Ag2CO3 + 2 HNO3 = 2 AgNO3 + CO2 + H2O
When AgNo3 reacts with iodide ions, the precipitate of AgI is formed.AgI is insoluble in HNO3. The symbol of the cation os, I-.
NaHCl + HNO3 --> H2 + NaNO2 + ClO
The products will be sodium nitrate and water.Chemical equation: NaOH + HNO3 = NaNO3 + H2O
Hint: Break up the polyatomic ions
HNO3 does not react with water.It become diluted with water.
Gold and platinum will no react with HNO3 due to their low reactivity. Aluminum also will not react with HNO3 despite its relatively high reactivity because it has a protective layer of aluminum oxide on it.
no