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No, the first is Bi(NO3)3 = Bismuth nitrate; it has 3 NO3- ionsand the other is BiO(NO3) = Bismuth oxynitrate, also called Bismuth subnitrate
solution of bismuth nitrate and ammonium bicarbonate will react to form bismuth ammonium nitrate and CO2. If excess of ammonium bi carbonate is added possibility of ppt of bismuth sub carbonate is there.
Mercury is not attacked by dilute hydrochloric or sulfuric acid. It reacts with hot nitric acid to form mercuric nitrate, Hg(No 3 )
A single replacement reaction would most likely be the best method. By adding a metallic element of higher reactivity to the compound the Bismuth will separate from the Nitrate ion and the matallic element of higher reactivity will take its place. The Bismuth Nitrate would have to be in an aqueous solution however.
Well you can't. Bismuth nitrate hydrolyses to form the insoluble oxynitrate and/or bismuth hydroxide depending on the conditions. It is soluble in nitric acid and hydrolyses at around pH0
- Potentiometric titration with silver nitrate (AgNO3) - Titration (manual) with silver nitrate (AgNO3) or mercuric thiocyanate - Chronopotentiometry - Using ISE (Ion Selective Electrode) for Cl-
Mercuric nitrate is Hg(NO3)2
Bismuth nitrate is the Bismuth salt of Nitric acid. Its formula is Bi(NO3)3
No, the first is Bi(NO3)3 = Bismuth nitrate; it has 3 NO3- ionsand the other is BiO(NO3) = Bismuth oxynitrate, also called Bismuth subnitrate
solution of bismuth nitrate and ammonium bicarbonate will react to form bismuth ammonium nitrate and CO2. If excess of ammonium bi carbonate is added possibility of ppt of bismuth sub carbonate is there.
Mercury is not attacked by dilute hydrochloric or sulfuric acid. It reacts with hot nitric acid to form mercuric nitrate, Hg(No 3 )
A single replacement reaction would most likely be the best method. By adding a metallic element of higher reactivity to the compound the Bismuth will separate from the Nitrate ion and the matallic element of higher reactivity will take its place. The Bismuth Nitrate would have to be in an aqueous solution however.
Well you can't. Bismuth nitrate hydrolyses to form the insoluble oxynitrate and/or bismuth hydroxide depending on the conditions. It is soluble in nitric acid and hydrolyses at around pH0
There shall be no reaction as they have same anions
titrate with mercuric nitrate solution
bcz titration is da worst method
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