Question

How hydrochloric acid reduce `PbCl_4` to lead metal, and oxidize chloride to chlorine gas?

Answer 1

`PbO_2(s) + 4HCl(aq) rarr PbCl_2(s) +2H_2O(l) + Cl_2(g)`

Explanation:

`P(+IV)` is reduced to `Pb(+II)`:

`Pb^(4+) + 2e^(-) rarr Pb^(2+)` `(i)`

Chloride ion is oxidized to chlorine gas:

`Cl^(-) rarr 1/2Cl_2(g) + e^(-)` `(ii)`

And thus `(i) + 2xx(ii):`

`Pb^(4+) + 2Cl^(-) + 2e^(-) rarr Pb^(2+) +Cl_2(g) +2e^-`

Which is balanced with respect to mass and charge.

We can write a more conventional stoichiometric equation, by substituting the ions for the parent compounds.......

`PbO_2 + 4HCl rarr PbCl_2(s)darr +Cl_2(g)uarr +2H_2O`

Is this balanced with respect to mass and charge?