For the chemical reaction:
`5Br^(ɵ) + BrO_(3)^(ɵ) + 6H^(o+) rarr 3Br_(2) + 3H_(2)O`
Rate `= k[Br^(ɵ)] [BrO_(3)^(ɵ)] [H^(o+)]`
What is the molecularity and order of reaction with respect to `[Br^(ɵ)]` ?

For the chemical reaction I^(ɵ) + OCl^(ɵ) rarr Cl^(ɵ) + OI^(ɵ) Rate = (k[OCl^(ɵ)] [I^(ɵ)])/([overset(ɵ)(OH)] What is the order and molecularity of the reaction ?

For the chemical reaction I^(ɵ) + OCl^(ɵ) rarr Cl^(ɵ) + OI^(ɵ) Rate = (k[OCl^(ɵ)] [I^(ɵ)])/([overset(ɵ)(OH)] a. What is the order and moleculartiy of the reaction ? b. In the above reaction, what are the molecularity and order with respect to [overset(ɵ)(OH)]

For the reaction H_(2)(g) + Br_(2)(g) rarr 2HBr (g) the experimental data suggested that r = k[H_(2)][Br_(2)]^(1//2) The molecularity and order of the reaction are respectively:

In the reaction Bromine 3Br_2 + 6 OH^(-) rarr 5 Br ^(-) + BrO_3^(-) + 3H_2O

BrO_(3)^(ɵ) + 5Br^(ɵ) rarr Br_(2) + 3 H_(2) O IF 50 mL 0.1 M BrO_(3)^(ɵ) is mixed with 30 mL of 0.5 M Br^(ɵ) solution that contains excess of H^(o+) ions, the moles of Br_(2) formed are

For the following balanced redox reaction, 2MnO_(4)^(-) + 4H^(+) + Br_(2) hArr 2Mn^(2+) + 2BrO_(3)^(-) + 2H_(2)O . If the molecular weight of MnO_(4)^(-) and Br_(2) are x & y respectively then

In the reaction BrO^(-3)(aq) + 5Br^(-) (aq) + 6H^(+) rarr 3Br_(2)(1) + 3H_(2)O(1) The rate of appearance of bromine (Br_(2)) is related to rate of disapperance of bromide ions as folllwoing :

In the reacion , 3Br_(2)+6CO_(3)^(2-)+3H_(2)Orarr5Br^(-)+BrO_(3)^(-)+6HCO_(3)^(-)

Consider the following reaction in aqueous solution 5Br^(-) (aq) + BrO_(3)^(-) (aq) + 6H^(+)(aq) to 3Br_(2)(aq) + 3H_(2)O(l) If the rate of appearance of Br_(2) at a particular time during the reaction is 0.025 M"sec"^(-1) , what is the rate of disappearance (in "Msec"^(-1) ) of Br^(-) at that time?

For the reaction 5Br^(-)(aq)+BrO_(3)^(-)(aq)+6H^(+)(aq)rarr 3Br_(2)(aq)+3H_(2)O(l) the reate expression was found to be -(d[BrO^(3-)])/(dt)=k[Br^(-)][H^(+)]^(2)[BrO_(3)^(-)] Which of the following statements is /are correct? I. Doubling the intial concentration of all the reactants will increase the reaction rate by a factor of 8. II. Unit of rate constant of the reaction in a buffer solution is "min"^(-1) III. Doubling the concentration of all the reactants at the same time will increase the reaction rate by a factor of 16 IV. rate of conversion of BrO_(3)^(-) and rate of disappearance of Br^(-) are the same