Determine the maximum amount of AgCl (Ksp= 1.8 x 10^-10) that can be dissolved in 250 ml of a 0.0100 M solution of NaCl?

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Determine the maximum amount of AgCl (Ksp= 1.8 x 10^-10) that can be dissolved in 250 ml of a 0.0100 M solution of NaCl?

Please include the steps to solve the equation, I am reviewing for an exam... need all the help I can get. Thank you!

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Answer 1 · 2018-04-17T04:49:08

Common Ion Effect problem - see below

Explanation:

So, AgCl comes apart according to:
$AgCl = Ag^+ + Cl^-1$
Your $Cl^-1$ ion is already 0.01M. When you lose a small amount of AgCl as "-s", you gain a small amount of $Ag^+1$ as "+s", and you gain a small amount more of $Cl^-1$ ion as "0.01+s".

The Ksp expression becomes:

$K_sp = [s][0.01+s]$ . We make the simplifying assumption that s<<0.01M (we should check after), so Ksp becomes:
$K_sp = [s][0.01]$
$1.8xx10^-10 = [s][0.01]$

$s = 1.8xx10^-8 M Ag^+$ ions. This all took place in 0.25L, so the number of moles of $Ag^+$ ions present is:
$(1.8xx10^-8 M)xx0.25L$ = $4.5xx10^-9 "moles" Ag^+$ ions

$Ag^+$ and AgCl are 1:1 molar ratio, so this means
$4.5xx10^-9 "moles" AgCl$ was lost (or dissolved).
If we multiply by the molar mass, we find that $6.45xx10^-7$ g of AgCl dissolved.

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Determine the maximum amount of AgCl (Ksp= 1.8 x 10^-10) that can be dissolved in 250 ml of a 0.0100 M solution of NaCl?

Please include the steps to solve the equation, I am reviewing for an exam... need all the help I can get. Thank you!

1 Answer

Explanation:

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