Calculate the hydronium ion concentration in an aqueous solution with a pH of 11.7 at 25°C.

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asked Dec 27, 2021 2.7k views

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Stefano Bagnara · Answer 1 · 2021-12-31T14:10:33+0000

Answer:

Approximately
$2* 10^(-12)\;\rm mol \cdot L^(-1)$ .

Step-by-step explanation:

The hydronium ion concentration
$\left[\mathrm{H_3O^(+)}\right]$ of an aqueous solution can be found from its
$\rm pH$ with the equation:

$\displaystyle \left[\mathrm{H_3O^(+)}\right] = 10^{-\mathrm{pH}}$ .

For this solution,
$\rm pH= 11.7$ . Hence,

$\begin{aligned}& \left[\mathrm{H_3O^(+)}\right] \\ &= 10^{-\mathrm{pH}} \\ &= 10^(-11.7) \approx 2 * 10^(-12)\end{aligned}$ .

Note that for this equation, the number of significant figures in
$\left[\mathrm{H_3O^(+)}\right]$ should be the same as the number of decimal places in
$\rm pH$ . For example, the
$\rm pH$ of this question comes with only one decimal place. As a result, there would be only one significant figure in the
$\left[\mathrm{H_3O^(+)}\right]$ obtained from the equation.

Calculate the hydronium ion concentration in an aqueous solution with a pH of 11.7 at 25°C.

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