In the conversion `Br_(2) rarr BrO_(3)^(-)` the oxidation state of bromine changes from

In the conversion fo Br_2 to BrO_3^(-) , the oxidation state of Br changes from.

In Br_(3)O_(8) compound, oxidation number of bromine is:

In the preparation of KMnO_4 , Pyrolusite (MnO_2) is first converted to potassium manganate (K_2MnO_4) . In this conversion the oxidation state of manganese changes from

Statement-I: Bromide ion nets as a reducing agent in the reaction, 2MnO_(4)^(-)+Br^(-)+H_(2)O to 2MnO_(2)+BrO_(3)^(-)+2OH^(-) Because Statment-2: Oxidation number of bromine increases from -1 to+ 5.

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