For the reaction :
`I^(-) +ClO_(3)^(-)+H_(2)SO_(4)rarr Cl^(-)+HSO_(4)^(-)+I_(2)`
The incorrect statement in the balanced equation is

For the reaction : I^(-)+ClO_(3)^(-)+H_(2)SO_(4) to Cl^(-)+HSO_(4)^(-)+I_(2) The correct statement(s) in the balanced equation is/are:

For the reaction: I^(-)+ClO_(3)^(-)+H_(2)SO_(4)+Cl^(-)+HSO_(4)^(-)+I_(2) The correct statement(s) in the balanced equation is/are (1) Stoichiometric coefficient of HSO_(4)^(-) is 6 (2) Iodide is oxidized. (3) Oxidation number of chlorine changes by 5 units (4) H_(2)O is one of the products

In the reaction :Cl_(2)+OH^(-)rarrCl^(-)+ClO_(4)^(-)+H_(2)O :-

The relation between K_(p) and K_(c) is K_(p)=K_(c)(RT)^(Deltan) unit of K_(p)=(atm)^(Deltan) , unit of K_(c)=(mol L^(-1))^(Deltan) H_(3)ClO_(4) is a tribasic acid, it undergoes ionisation as H_(3)ClO_(4) hArr H^(o+)+H_(2)ClO_(4)^(-), K_(1) H_(2)ClO_(4)^(-) hArr H^(o+)+HClO_(4)^(2-), K_(2) HClO_(4)^(2-) hArr H^(o+)+ClO_(4)^(3-), K_(3) Then, equilibrium constant for the following reaction will be: H_(3)ClO_(4) hArr 3H^(o+)+ClO_(4)^(3-)

Complete the following reaction: (i) Cl_(2) + H_(2)O rarr (ii) XeF_(6) + 3H_(2)O rarr

Consider the reaction, Cl_(2)(aq) + H_(2)S(aq) rarr S(s) + 2H^(+) (aq) + 2Cl^(-)(aq) The rate equation for this reaction is, Rate =k [Cl_(2)][H_(2)S] Which of these mechanisms is // are consistent with this rate equation ? (I) Cl_(2) + H_(2)S rarr H^(+) + Cl^(-) + Cl^(+) + HS^(-) (slow) Cl^(+) + HS^(-) rarr H^(+) + Cl^(-) + S (fast) (II) H_(2)S hArr H^(+) +HS^(-) (fast equilibrium) Cl^(+) + HS^(-) rarr 2 Cl^(-) + H^(+) + S (slow)

Incorrect statement for H_(2)SO_(4) is

The order of Cl - O bond energy in ClO^(-), ClO_(2)^(-), ClO_(3)^(-), CIO_(4)^(-) is

complete the following equation : (i) c+conc. H_(2)SO_(4)rarr (ii) XeF_(2)+H_(2)Orarr

In the reaction Cl_2 + OH^(-) to ClO_3^(-) + Cl^(-) + H_2O the stoichiometric coefficient of Cl_2 and Cl^- respectively are