Answer:
Concentration of Ca(OH)₂:
0.117 M.
Explanation:
How many moles of HCl is consumed?
Note the unit of concentration: moles per liter solution.
[tex]c(\text{HCl}) = 0.175\;\text{M} = 0.175\;\text{mol}\cdot\textbf{L}^{-1}[/tex].
Convert milliliters to liters.
[tex]V(\text{HCl})=40.0\;\text{mL} = 0.0400\;\text{L}[/tex].
[tex]n(\text{HCl}) = c(\text{HCl})\cdot V(\text{HCl})= 0.175\;\text{mol}\cdot\text{L}^{-1} \times 0.0400\;\text{L}= 7.00\times 10^{-3}\;\text{mol}[/tex].
How many moles of NaOH in the solution?
Refer to the equation. The coefficient in front of Ca(OH)₂ is 1. The coefficient in front of HCl is 2. In other words, it takes two moles of HCl to neutralize one mole of Ca(OH)₂. That [tex]7.00\times 10^{-3}\;\text{mol}[/tex] of HCl will neutralize only half that much Ca(OH)₂.
[tex]\displaystyle n(\text{Ca}(\text{OH})_2)=\frac{1}{2}\;n(\text{HCl}) = 3.50\times 10^{-3}\;\text{mol}[/tex].
What's the concentration of the Ca(OH)₂ solution?
Concentration is the number of moles of solute per unit volume.
[tex]\displaystyle c(\text{Ca}(\text{OH})_2) = \frac{n(\text{Ca}(\text{OH})_2)}{V(\text{Ca}(\text{OH})_2)} = \frac{3.50\times 10^{-3}\;\text{mol}}{0.0300\;\text{L}}=0.117\;\text{mol}\cdot\text{L}^{-1}[/tex].
