To a `10mL` of `10^(-3) N H_(2)SO_(4)` solution water has been to make the total volume of one litre. Its `pOH` would be `:`

4.0 g of monobasic, saturated carboxylic acid is dissolved in 100 mL water and its 10 mL portion required 8.0 mL 0.27 M NaOH to reach the equivalence point. In an another experiment, 5.0 g of the same acid is burnt completely and CO_(2) produced is absorbed completely in 500 mL of a 2.0 N NaOH solution. A 10 mL portion of the resulting solution is treated with excess of BaCl_(2) to precipitate all carbonate and finally titrated with 0.5 N H_(2)SO_(4) solution. Determine the volume of the acid solution that would be required to make this solution neutral.

10mL of N-HCl, 20mL of N//2 H_(2)SO_(4) and 30mL N//3 HNO_(3) are mixed togeher and volume made to one litre. The normally of H^(+) in the resulting solution is:

10ml of N-HCl 20ml of N//2 H_(2)SO_(4) and 30 ml of N//3 HNO_(3) are mixed together and volume made to one litre. The normality of the resulting solution is -

22.7 mL of (N/10) Na_(2)CO_(3) solution neutralises 10.2 mL of a dilute H_(2)SO_(4) solution. The volume of water that must be added to 400 mL of this H_(2)SO_(4) solution in order to make it exactly N/10.

5mL of N HCI, 20 mL of N//2 H_(2)SO_(4) and 30 mL of N//3 HNO_(3) are mixed together and volume made to one litre. The normality of the resulting solution is