deep0199 Posted June 26, 2005 Posted June 26, 2005 Given this equation: PH2O2-(aq) + OH-(aq) --> PHO32-(aq) + H2(g) How do I determine whether the OH- is acting as an acid or base? Any explanations will be greatly appreciated. Thanks in advance.
Bluenoise Posted June 26, 2005 Posted June 26, 2005 What's the counter ion? Na+ or K+ probably. PH2O2Na + NaOH ---> PHO3Na2 + H2 I'd say it's acting like an acid since it's loosing it's H+. Though I haven't delt with this kinda question before so It be nice if someone could confirm this. **Though on the other hand it's not really acting like a Lewis acid since there really isn't any net gain or loss of electrons for the O or the H or the P. Really all that's happening is the OH swapping one covalent bond to it's hydrogen for one to the Phosphorus. P and H have almost identical electronegativities with P being higher but insignificantly so.** Acid would be my answer though.
Yggdrasil Posted June 26, 2005 Posted June 26, 2005 This doesn't look like a clear acid/base reaction to me, but more like an oxidation /reduction reaction. The phosphorus is being oxidized while the hydrogens are being reduced to form hydrogen gas. Broken down the reactions probably look like a substitution reaction followed by an acid/base reaction: H2PO2- + OH- --> H3PO3- + H- Here the OH is acting like a lewis base (nucleophile) by donating its lone pair to form a bond with the hypophosphite (the lewis acid/electrophile). The hydride ion acts as a leaving group in this substitution reaction. Now comes the acid/base part of the reaction: H3PO3- + H- --> H2PO32- + H2 Here the phosphorous acid acts as the (Brønsted) acid and the hydride ion acts as the (Brønsted) base.
Bluenoise Posted June 27, 2005 Posted June 27, 2005 H2PO2- + OH- --> H3PO3- + H- Here the OH is acting like a lewis base (nucleophile) by donating its lone pair to form a bond with the hypophosphite (the lewis acid/electrophile). The hydride ion acts as a leaving group in this substitution reaction. This is unbalanced. There is an extra hydrogen on the right side.
Yggdrasil Posted June 27, 2005 Posted June 27, 2005 Ah, thanks for noticing the error. Here are the corrected equations: H2PO2- + OH- --> H2PO3- + H- H2PO3- + H- --> HPO32- + H2
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