Is there a error at page 566 of Atkins Physical Chemistry?

Question

At page 556 I found this question being analyzed and the rate law is provided. However, when I apply steady state approximation, I can't find the result without the factor 2. Is it me being wrong?

Answer 1

The factor of 2 originates from the definition of $k_b$ (I thought it was an error, but it turns out IUPAC guidelines lead to its presence).

If $k_\mathrm{a}' \gg k_\mathrm{b}[\ce{O2}]$ and defining

$$K_\mathrm{a} = \frac{k_\mathrm{a}}{k_\mathrm{a}'}$$

it follows from the equation posted in the OP that

$$\frac{\mathrm{d}[\ce{NO2}]}{\mathrm{d}t} = 2k_\mathrm{b}K_\mathrm{a}[\ce{NO}]^2[\ce{O2}]$$

However, starting from scratch we could write that

$$\frac{\mathrm{d}[\ce{NO2}]}{\mathrm{d}t} = k_\mathrm{b}[\ce{N2O2}][\ce{O2}]$$

(this is not the standard IUPAC convention however). Then, if

$$K_\mathrm{a} = \frac{k_\mathrm{a}}{k_\mathrm{a}'} = \frac{[\ce{N2O2}]}{[\ce{NO}]^2}$$

it follows that

$$\frac{\mathrm{d}[\ce{NO2}]}{\mathrm{d}t} = k_\mathrm{b}K_\mathrm{a}[\ce{NO}]^2[\ce{O2}]$$

and the factor of $2$ is not there. In the fourth version of Atkins' book (which I parallel in this derivation from "scratch") the factor of 2 is missing, but in that book the analysis does not proceed by dissecting the full rate law before imposing the pre-equilibrium approximation. The OP presumably sources a later version of the book. As noted in a comment, IUPAC guidelines call for incorporation of that factor of 2. One should write

$$\frac{\mathrm{d}[\ce{NO2}]}{\mathrm{d}t} = 2k_\mathrm{b}[\ce{N2O2}][\ce{O2}]$$ because that step of the reaction reads $$\ce{N2O2 + O2->2NO2}$$ The stoichiometric factor of 2 means two moles of $\ce{NO2}$ are produced for every mole of reaction.