Which species can convert Fe2+(aq) to Fe3+(aq) without converting Mn2+(aq) to MnO4-(aq)?

The conversion of Fe2+(aq) to Fe3+(aq) involves oxidation, where Fe2+ loses an electron to become Fe3+. In order for this reaction to occur without simultaneously oxidizing Mn2+(aq) to MnO4-(aq), it is essential to choose a reducing agent that has a standard reduction potential lower than that of the MnO4-/Mn2+ couple.

Chlorine gas, Cl2, is a powerful oxidizing agent that can effectively oxidize Fe2+ to Fe3+ while not being strong enough to oxidize Mn2+ to MnO4-. The standard potential for Cl2/Cl- is quite high, which means it can facilitate the oxidation of the ferrous ion without affecting the manganese species.

In contrast, other options, such as MnO4-(aq) or the vanadium species, have the potential to produce MnO4- under these conditions, as they have higher oxidation potentials, making them unsuitable for this particular reaction involving Fe2+. The presence of Fe3+(aq) also does not contribute to the oxidation of Fe2+ as it is already in its oxidized form, and would not facilitate the necessary conversion. Thus, Cl2 stands out as