`Br_(2)` and `I_(2)` are added to a solution containing `1M` each of `Br^(c-)` and `I^(c-)` . What reaction will occur ?

Cl_(2) and Br_(c-) are added to a solution containing 1M each of Cl^(c-) and Br^(c-) . What reaction will occur ?

Cl_(2) and F_(2) are added to a solution containing 1M each M of Cl^(c-) and Br^(c-) . What reaction will occur ?

I2 and Br2 are added to a solution containing Br– and I– ions. What reaction will occur if, I_(2) + 2e^(-) rarr 2I^(-) , E^(0) = + 0.54V and Br_(2) + 2e^(-) rarr 2Br^(-) , E^(0) = +1.09 V?

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 :

Bromine is commercially prepared from sea water by displacement reaction Cl_(2)+2Br^(-)(aq) to 2Cl^(-)(aq)+Br_(2) Br_(2) gas thus formed is dissolved into solution of Na_(2)CO_(3) and then pure Br_(2) is obtained by treatment of the solution with:

(a). If both (A) and (R) are correct and (R) is the correct explanation for (A). (b). If both (A) and (R) are correct and (R) is the correct explanation for (A). (c). If (A) is correct and (R) is incorrect. (d). If (A) is incorrect and (R) is correct. (e). If both (A) and (R) are incorrect. Q. Assertion (A): In organic layer test, Cl_2 water is added to the sodium extract, which oxidises Br^(-) and I^(-) ions to Br_2 and I_2 , respectively. Reason (R): Reduction potential of Cl_2 is greater than that of Br_2 and I_2 .

Silver ions are added to a solution with [Br^(-)]=[Cl^(-)]=[CO_(3)^(2-)]=[AsO_(4)^(3-)] =0.1M. Which compound will precipitate with lowest [Ag^(+)] ?

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 :

Bromine is commercially prepared from sea water by displacement reaction Cl_(2)+2Br^(-)(aq.)to2Cl^(-)(aq.)+Br_(2) Br_(2) gas thus formed is dissolved into solution of Na_(2)CO_(3) and then pure Br_(2) iis obtained by treatment of the solution with :

Bromine is commercially prepared from sea water by displacement reaction Cl_(2)+2Br^(-)(aq.)to2Cl^(-)(aq.)+Br_(2) Br_(2) gas thus formed is dissolved into solution of Na_(2)CO_(3) and then pure Br_(2) iis obtained by treatment of the solution with :