The rate law expression for the reaction,
`2NO+O_(2) rarr 2NO_(2)` is: rate `=K[NO][O_(2)]`
Suggest the possible mechanism.

For the reaction 2NO_(2)rarr2NO+O_(2) , rate expressed as :

The rate law of the reaction 2N_2O_5 rarr4NO_2+O_2 is

The rate law of a chemical reaction given below: 2NO+O_(2)rarr 2NO_(2) is given as rate =K[NO]^(2)[O_(2)] . How will the rate of reaction change if the volume of reaction vessel is reduced to 1//4th of its original valur?

The rate law for the reaction O_(3) + O rarr 2O_(2) is rate = k[O_(3)][NO] . Then which is/are correct? (more than one correct)

The forward reaction rate for the nitric oxide-oxygen reaction 2NO+O_(2) rarr 2NO_(2) has the rate law as: Rate = k[NO]^(2)[O_(2)] . If the mechanism is assumed to be: 2NO+O overset(k_(eq))hArr , (rapid equilibration) N_(2)O_(2) + O_(2) overset(k_(2))rarr 2NO_(2) (slow step), then which of the following is (are) correct? (I) Rate constant = k_(eq)k_(2) , (II) [N_(2)O_(2)] = k_(eq)[NO]^(2) (III) [N_(2)O_(2)] = k_(eq)[NO] , (IV) Rate constant = k_(2) The correct option is

The rate of the reaction 2NO+O_(2)rarr2NO_(2),"at" 25^(@)C is r=k[NO]^(2)[O_(2)] If the initial concentrations of the reactant are O_(2)=0.040 "mol"L^(-1) and NO==0.01 "mol" L^(-1) , the rate constant of the reaction is :