No, not without a lot of work if you are referring to powdered samples. In aqueous solution you would get a blood red color due to the soluble complex, [Fe(SCN)2]-, a white solid due to insoluble AgCl formation, and another white solid due to insoluble AgSCN formation. You could filter the solution and recover the silver with a bit more work . . .
copper (thiocyanate)2 and potassium nitrate
Iron (III) thiocyanate The nitrate ions will separate and form potassium nitrate as well. BE: Fe(NO3)3(aq) + 3K(SCN) -> Fe(SCN)3 + 3K(NO3)
the reaction is as follows-AgNO3 + KCl ----->AgCl +KNO3here the silver nitrate(AgNO3) reacts with potassium chloride(KCl) to form potassium nitrate(KNO3) and insoluble AgCl.
s + p =
KCl = Potassium Chloride KOH = Potassium Hydroxide KNO3 = Potassium Nitrate KMnO4 = Potassium Permanganate
copper (thiocyanate)2 and potassium nitrate
Iron (III) thiocyanate The nitrate ions will separate and form potassium nitrate as well. BE: Fe(NO3)3(aq) + 3K(SCN) -> Fe(SCN)3 + 3K(NO3)
no
AgSNC is the molecular formula for silver thiocyanate.Silver thiocyanate is a colourless crystal which is produced by a reaction between silver nitrate and potassium thiocyanate.
the reaction is as follows-AgNO3 + KCl ----->AgCl +KNO3here the silver nitrate(AgNO3) reacts with potassium chloride(KCl) to form potassium nitrate(KNO3) and insoluble AgCl.
When clhlorine is added to silver nitrate a milky white precipitate of Silver Chloride is formed. Potassium nitrate is also formed. When chlorine is added to potassium chloride nothing visible happens but the solutiuon become more acidic.
- potassium chloride - ammonium and calcium nitrate - ammonium and sodium phosphates - ammonium sulfate etc.
The reaction is: AgNO3 + KCl = AgCl + KNO3The precipitate is silver chloride.
These substances doesn't react.
s + p =
No
KCl = Potassium Chloride KOH = Potassium Hydroxide KNO3 = Potassium Nitrate KMnO4 = Potassium Permanganate