36 " mL of " 0.5 M `Br_(2)` solution when made alkaline undergoes complete disproportionation into `Br^(ɵ)` and `BrO_(3)^(ɵ)`. The resulting solution requried 45 " mL of " As (III) solution to reduce `BrO_(3)^(ɵ)` to `Br^(ɵ)`. Given that as (III) is oxidised to As (V), what is the molarity of As (III) solution?

18 " mL of " 1.0 M Br_(2) solution undergoes complete disproportionation in basic medium to Br^(The hardness of water in terms of ) and BrO_(3)^(ɵ) . Then the resulting solution required 45 " mL of " As^(3+) solution to reduce BrO_(3)^(ɵ) to Br^(ɵ) . As^(3+) is oxidised to As^(5+) which statements are correct?

Br_2 undergoes disproportionation reaction in basic medium to give Br^(ɵ) ion and BrO_3^(ɵ) (bromate) ion in reduction and oxidation reaction.

10 mL of 1.0 M aqueous solution of Br_(2) is added to excess of NaOH in order to disproportionate quantitatively to Br^(-) " and " BrO_(3)^(-) . The resulting soluting is made free from Br^(-) ion by extraction and excess of OH^(-) neutralized by acidifying the solution. This solution requires 1.5 g of an impure CaC_(2)O_(4) sample for complete redox change . Calculate % purity of CaC_(2)O_(4) sample.

To a 10mL, 1M aqueous solution of Br_(2) , excess of NaOH is added so that all Br_(2) is disproportionated to Br^(-) and BrO_(3)^(-) . The resulting solution is free from Br^(-) , by extraction and excess of OH^(-) neutralised by acidifying the solution. The resulting solution is suffcient to react with 2 g of impure CaC_(2)O_(4) (M= 128g/mol) sample. The % purity of oxalate sample is :

A 15mL sample of 0.20 M" " MgCl_(2) is added to 45ML of 0.40 M AlCl_(3) What is the molarity of Cl ions in the final solution

If 36.44 ml of "0.01652 M KMnO"_(4) solution in acid media is required to completely oxidize 25 ml of a H_(2)O_(2) solution. What will be the molarity of H_(2)O_(2) solution?

Hydroxylamine reduce iron (III) according to the equation : 2NH_(2)OH + 4 Fe^(3+) rarr N_(2)O(g)uarr + H_(2)O + 4Fe^(2+) + 4H^(+) Iron (II) thus produced is estimated by titration with a standard permanganate solution. The reaction is MnO_(4)^(-) + 5 Fe^(2+) + 8H^(+) rarr Mn^(2+) + 5Fe^(3+) + 4H_(2)O A 10 mL sample of hydroxylamine solution was diluted to 1 litre. 50 mL of this diluted solution was boiled with an excess of iron (III) solution. The resulting solution required 12 mL of 0.02 M KMnO_(4) solution for complete oxidation of iron (II). Calculate the weight of hydroxylamine in one litre of the original solution

To a 10mL, 1M aqueous solution of Br_2, excess of NaOH is added so that all Br_2 is disproportionated to Br^- and BrO_3^- . The resulting solution is free from Br^- , by extraction and excess of OH^- neutralised by acidifying the solution. The resulting solution is sufficient to react with 2g of impure Ca C_2 O_4 (M=128 g/mol) sample. The % purity of oxalate sample is :

20 mL of 0.5 M HCl is mixed with 30 mL of 0.3 M HCl, the molarity of the resulting solution is :

The density of 5% aqueous MgCl_(2) solution is 1.043 g mL^(-1) . What is the molarity and molaltiy of the solution? What is the molality of Cl^(ɵ) ions? (Mg = 24 "amu")