Question #62993

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Question #62993

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Answer 1 · 2016-02-21T02:05:18

Yes, we can.

Explanation:

You're dealing with the hydrolisis of boron trichloride, ${BCl}_{3}$ $"BCl"_3$ .

This reaction will produce boric acid, which you'll see written both as $H_{3} {BO}_{3}$ $"H"_3"BO"_3$ and as $B {(OH)}_{3}$ $"B"("OH")_3$ , and hydrochloric acid, $HCl$ $"HCl"$ .

The balanced chemical equation would indeed look like this

${BCl}_{3(aq]} + 3 H_{2} O_{(l]} \to B {(OH)}_{3(aq]} + 3 {HCl}_{(aq]}$ $"BCl"_text(3(aq]) + 3"H"_2"O"_text((l]) -> "B"("OH")_text(3(aq]) + 3"HCl"_text((aq])$

I'll try to explain what's going on here without going into too much detail. Mind you, this is a simplified version of what actually goes on, but it will give you an idea of how things work here.

The boron atom in boron trichloride, which is ${sp}^{2}$ $"sp"^2$ hybridized, has an empty 2p-orbital.

![http://www.tutorvista.com/content/chemistry/chemistry-iv/p-block-elements/http://reactivity-elements.php](https://useruploads.socratic.org/mX6pZJk4SCe06DaT1Fvr_boron-trihalides-structure.jpeg)

This means that it can act as a Lewis acid, i.e .accept a pair of electrons from the oxygen atom of a water molecule.

This will lead to the formation of an adduct, which is simply the result of the addition of two molecules.

Once this adduct, which can be represented as ${[H_{2} O - {BCl}_{3}]}_{2}^{-}$ $["H"_2"O"-"BCl"_3]^(-)$ , is formed, a hydrogen atom located on the water molecule will jump off, leaving an $OH -$ $"OH"-$ group attached to the boron trichloride.

This will trigger the replacement of the $B - Cl$ $"B"-"Cl"$ bonds with stronger $B - O$ $"B"-"O"$ bonds, resulting in the formation of boric acid, $B {(OH)}_{3}$ $"B"("OH")_3$ .

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As an interest follow-up, boric acid acts as an acid not because it donates protons, $H^{+}$ $"H"^(+)$ , but because it pulls another $- OH$ $-"OH"$ group from water to form the tetrahydroxyborate anion, ${[B {(OH)}_{4}]}_{4}^{-}$ $["B"("OH")_4]^(-)$

$B {(OH)}_{3(aq]} + H_{2} O_{(l]} ⇌ {[B {(OH)}_{4(aq]}]}_{4(aq]}^{-} + H_{(aq]}^{+}$ $"B"("OH")_text(3(aq]) + "H"_2"O"_text((l]) rightleftharpoons ["B"("OH")_text(4(aq])]^(-) + "H"_text((aq])^(+)$

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Question #62993

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