For the reaction , `Cl_(2)+2I^(-) rarr I_(2)+2Cl^(-)`, the initial concentration of `I^(-)` was `0.20 "mol lit"^(-1)` and the concentration after 20 minutes was `0.80 "mol lit"^(-1)`. Then the rate of formation of `I_(2) "in mol lit"^(-1) "min"^(-1)` would be

For the reaction , Cl_(2)+2I^(-) rarr I_(2)+2Cl^(-) , the initial concentration of I^(-) was 0.20 "mol lit"^(-1) and the concentration after 20 minutes was 0.18 "mol lit"^(-1) . Then the rate of formation of I_(2) in "mol lit"^-1min^-1 would be

For the reaction Cl_(2)+2I^(-)toI_(2)+2CI^(-) , the initial concentration of I^(-) was 0.20 mol "lit"^(-1) and the concentration after 20 min was 0.18 mol "lit"^(-1) . If the rate of formation of I_(2) in mol "lit"^(-1) "min"^(-1) is x xx 10^(-4) then the value of x is

For the reaction Cl_(2) + 2I^(-) to I_(2) + 2Cl^(-) , the initial concentration of I^(-) was 0.4 "mol" ^(-1) and concentration after 20 minutes was 0.28 mol L^(-1) . The rate of formation of I_(2) in mol L^(-1) would be

For the reaction Cl_2 + 2I^(-) rarr I_2 +2 Cl^(-) , the initial concentration of I was 0.20 mol L^(-1) and the conc. After 20 min. way 0.18 mol L^-1 . Then the rate of formation of I_2 in mol L^(-1) would be

For the reaction, Cl_(2) + 2I^(-) rarr I_(2) +2CI^(-) , second order w.r.t I^(-) and zero order w.r.t Cl_(2) the initial concentration of I^(-) was 0.20" mol L"^(-1) . Then the rate of formation of I_(2)" in mol L"^(-1)" sec"^(-1) would be: [Given rate constant for the reaction is 2.5xx10^(-2)" mol L"^(-1)" sec"^(-1)

The following reaction was carried out in water : Cl_(2) + 2I^(ɵ) rarr I_(2) + 2Cl^(ɵ) The initial concentration of I^(ɵ) was 0.25 mol L^(-1) and the concentration after 10 min was 0.23 mol L^(-1) . Calculate the rate of disappearance of I^(ɵ) and rate of appearance of I_(2) .

The following reaction was carried out in water : Cl_(2) + 2I^(ɵ) rarr I_(2) + 2Cl^(ɵ) The initial concentration of I^(ɵ) was 0.25 mol L^(-1) and the concentration after 10 min was 0.23 mol L^(-1) . Calculate the rate of disappearance of I^(ɵ) and rate of appearance of I_(2) .

For a zero order reaction, K=1xx10^(-3)"mol L"^(-1)s^(-1) If initial concentration of the reactant is 1.0"mol L"^(-1) , the concentration after 10 minutes would be