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Question #0be3f

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Answer 1 · 2015-05-02T09:02:44

So, the aluminium cation acts as a weak acid, its acid dissociation constant, $K_{a}$ $K_a$ , being equal to $1 \cdot 10^{- 5}$ $1 * 10^(-5)$ .

You can use the value of its acid dissociation constant and the molarity of the solution to determine the concentration of hydronium ions, $H_{3} O^{+}$ $H_3O^(+)$ , present in solution.

For a weak acid, you have

$[H_{3} O^{+}] = \sqrt{K_{a} \cdot C}$ $[H_3O^(+)] = sqrt(K_a * C)$

$[H_{3} O^{+}] = \sqrt{1 \cdot 10^{- 5} \cdot 2.5} = 0.005$ $[H_3O^(+)] = sqrt( 1 * 10^(-5) * 2.5) = 0.005$

Now that you have the concentration of the hydronium ions, you can determine the concentration of the hydroxide ions by

$[O H^{-}] = \frac{10^{- 14}}{[H_{3} O^{+}]}$ $[OH^(-)] = 10^(-14)/([H_3O^(+)])$

$[O H^{-}] = \frac{10^{- 14}}{5 \cdot 10^{- 3}} = 2 \cdot 10^{- 12}$ $[OH^(-)] = 10^(-14)/(5 * 10^(-3)) = 2 * 10^(-12)$

Now, in order to determine whether or not a precipitate will form, you need the solubility product constant, $K_{s p}$ $K_(sp)$ , for aluminium hydroxide, which is listed as being equal to $1.3 \cdot 10^{- 33}$ $1.3 * 10^(-33)$ .

$A l {(O H)}_{3 (s)} ⇌ A l_{(aq]}^{3 +} + 3 O H_{(a q)}^{-}$ $Al(OH)_(3(s)) rightleftharpoons Al_text((aq])^(3+) + color(red)(3)OH_((aq))^(-)$

By definition, $K_{s p}$ $K_(sp)$ is

$K_{s p} = [A l^{3 +}] \cdot {[O H^{-}]}^{3}$ $K_(sp) = [Al^(3+)] * [OH^(-)]^(color(red)(3))$

The minimum concentration of hydroxide ions needed to precipitate aluminium hydroxide, given that the concentration of $A l^{3 +}$ $Al^(3+)$ is 2.5 M, will be

$[O H^{-}] = \sqrt[3]{\frac{K_{s p}}{[A l^{3 +}]}} = \sqrt[3]{\frac{1.3 \cdot 10^{- 33}}{2.5}} = 8.0 \cdot 10^{- 12}$ $[OH^(-)] = root(3)(K_(sp)/([Al^(3+)])) = root(3)((1.3 * 10^(-33))/2.5) = 8.0 * 10^(-12)$

Compare this value to the one you've calculated for $[O H^{-}]$ $[OH^(-)]$ , and you'll see that you don't have enough hydroxide ions present to form a precipitate

$2 \cdot 10^{- 12} < 8 \cdot 10^{- 12}$ $2 * 10^(-12) < 8 * 10^(-12)$ $\Rightarrow$ $=>$ NO precipitate is formed.

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