Question

Given that pure water has `pH=6.630` at `323*K`, what is `pK_w` at this temperature?

Answer 1

Good question.....we interrogate the equilibrium....

`2H_2O(l) rightleftharpoonsH_3O^+ + HO^-`

Explanation:

Now `K_w=[H_3O^+][HO^-]=10^(-14),` `298*K`....

`K_w=10^(-14),` `298*K`....

We want `K'_w,` `323*K`

But we got a handle on `[H_3O^+]`, i.e. `pH=6.630`....and since by definition, `pH=-log_10[H_3O^+]`, `H_3O^+=10^(-6.630)-=[HO^-]`

And thus `K'_w=10^(-6.630)xx10^(-6.630)=5.50xx10^-14`...and `pK_w'=13.26`...

Note that `K'_w>K_w` is reasonable, given that the autoprotolysis reaction as written is a bond-breaking process, which should be slightly favoured, i.e. towards the products as written, at elevated temperatures.....