The gas phase reaction of nitric oxide and bromine yields nitrosyl bromide
`2NO(g)+Br_(2)(g) to 2NOBr(g)`
The rate law is rate `=k[NO]^(2)[Br_(2)]`
The overall reaction order is

For the reaction 2NO(g)+2H_(2)(g)toN_(2)(g)+2H_(2)O(g) . The rate law is rate =k[NO]^(2)[H_(2)] . What is the overall order of reaction.

The rate constant for the decompoistion of a certain reaction is described by the equation: log k(s^(-1)) = 14 - (1.25 xx 10^(4) K)/(T) A two-step mechanism has been suggested for the reaction of nitric oxide and bromine: NO(g) + Br_(2)(g) overset(k_(1))rarr NOBr_(2)(g) NOBr_(2)(g)+NO(g) overset(k_(2))rarr 2NOBr(g) The observed rate law is, rate = k[NO]^(2)[Br_(2)] . Hence, the rate-determining step is

Nitric oxide, NO, reacts with oxygen to produce nitrogen dioxide : 2NO(g)+O_(2)(g)to2NO_(2)(g) The rate law for this reaction is : Rate =k[NO]^(2)[O_(2)]. Propose a mechanism for the above reaction.

For a reaction, Cl_(2)(g) + 2NO(g) to 2NOCl(g) ,the rate law is expressed as rate = k[Cl_(2)][NO]^(2) . What is the order of the reaction?

Nitric oxide (NO) reacts with oxygen to produce nitrogen dioxide (NO_(2)) : 2NO(g) + O_(2) to 2NO_(2) (g) The rate law for the reaction is: rate = k[NO]^2[O_(2)] Propose a mechanism for the above reaction.

For the reaction, H_(2(g)) + Br_(2(g)) to 2HBr_((g)) , the reaction rate = k [H_(2)][Br_(2)]^(1//2) . Which statement is true about this reaction?

The gas - phase reaction between NO and Br_(2) is respresented by the equation 2NO_((g)) + Br_(2(g)) to 2NOBr_((g) (a ) Write the expressions for the rate of consumption of reactants and formation of products. ( b) Write the expression for the rate of overall reaction in terms of rates of consumption of reactions and formation of products.