![Theory: In the determination of nitrite, the ceric sulphate solution is
standardised against ferrous ammonium sulphate dissolved in air-free
dilute sulphuric acid. The effect of atmospheric oxidation during the
titration is negligible. The known volume of unknown concentration of
nitrite is oxidized with an excess of ceric ammonium sulphate and the
excess of Ce4+ is determined by titrating it against standardized ferrous
ammonium sulphate solution using a ferroin indicator
Reactions:
Ce4+ + Fe2+ Ce3+ + Fe3+
(NO2)- + 2Ce4+ + H2O (NO3)- + 2Ce3++ 2H+
[Ph3Fe]3+
(blue) + e- [Ph3Fe]2+
(red)
2](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)
Recommended
More Related Content
What's hot
What's hot (20)
Similar to Estimating Nitrite Using Ceric Ammonium Titration
Similar to Estimating Nitrite Using Ceric Ammonium Titration (20)
More from Mithil Fal Desai
More from Mithil Fal Desai (20)
Recently uploaded
Recently uploaded (20)
Estimating Nitrite Using Ceric Ammonium Titration
- 1. Dr. Mithil Fal Desai Shree Mallikarjun and Shri Chetan Manju Desai College Canacona Goa To estimate the amount of nitrite present in the given sodium nitrite solution by titrating v/s Ceric ammonium sulphate. 1
- 2. Theory: In the determination of nitrite, the ceric sulphate solution is standardised against ferrous ammonium sulphate dissolved in air-free dilute sulphuric acid. The effect of atmospheric oxidation during the titration is negligible. The known volume of unknown concentration of nitrite is oxidized with an excess of ceric ammonium sulphate and the excess of Ce4+ is determined by titrating it against standardized ferrous ammonium sulphate solution using a ferroin indicator Reactions: Ce4+ + Fe2+ Ce3+ + Fe3+ (NO2)- + 2Ce4+ + H2O (NO3)- + 2Ce3++ 2H+ [Ph3Fe]3+ (blue) + e- [Ph3Fe]2+ (red) 2
- 3. Observation (Titration 2 Estimation of nitrite.) 1) Solution in burette: 0.5N Fe2+ 2) Solution in conical flask: 25 mL 0.05N Ce4+ + 10 mL (NO2)- + 2 drops of ferroin indicator 3) Indicator: Ferroin 4) Colour change: blue to red 5) Reaction Ce4+ + Fe2+ Ce3+ + Fe3+ (NO2)- + 2Ce4+ + H2O (NO3)- + 2Ce3++ 2H+ Observation table Burette reading Piolet reading I (mL) II (mL) III (mL) Constant ‘A’ Initial 14.0-15.0 mL 15.0 30.0 45.0 15.0 mL Final 30.0 45.0 60.0 Difference 15.0 15.0 15.0
- 4. 4 Calculation A) Standardisation of Ce4+ solution N1XV1 (Ce4+) = N2 X V2 (Fe2+) N1 X 10 mL = 0.05 X B.R. of standardisation For now consider it is 0.05N.
- 5. 5 Calculation B) Estimation of nitrite i) Out of 25.0 mL of 0.05N ceric salt, a =(25- Y mL) of 0.05N ceric salt solution reacted with 10 mL of XN nitrite solution. Y mL of this excess 0.05 N ceric solution reacted with 15 mL 0.05N ferrous solution. N1V1(excess ceric solution) = N2V2 (ferrous solution) 0.05N X Y mL =0.05N X 15.0 mL Y = 15 mL Volume of 0.05N ceric solution reacted with 10 mL of XN nitrite solution is a = 25.0-15.0 mL= 10 mL ii) Therefore the strength of nitrite solution N1V1( nitrite solution) = N2V2 (ceric solution) XN X 10 mL = 0.05 X 10 mL XN = 0.05 N iii) Amount of NaNO2 in 1000 mL = N X eq. wt.