Answer:
[tex]\boxed{1.33 \times 10^{-5}\, \text{mol/L}}}[/tex]
Explanation:
Data:
c₀ = 1.33 mol·L⁻¹
Dilutions = 2 mL stock + 18 mL water
n = five dilutions
Calculations:
The general formula is for calculating a single dilution ratio (DR) is
[tex]DR = \dfrac{V_{i}}{V_{f}}[/tex]
For your dilutions,
[tex]V_{i} = \text{2 mL}\\V_{f} = \text{20 mL}\\DR = \dfrac{ \text{2 mL}}{\text{20 mL}} = \dfrac{1}{10}[/tex]
(Note: This is the same as a dilution factor of 10:1)
The general formula for the concentration cₙ after n identical serial dilutions is
[tex]c_{n} = c_{0}(\text{DR})^{n}[/tex]
So, after five dilutions
[tex]c_{5} =1.33 \left (\dfrac{1}{10} \right )^{5}=1.33\left ( \dfrac{1}{10^{5}} \right ) = \mathbf{1.33 \times 10^{-5}}\textbf{ mol/L}\\\\\text{The final concentration is $\boxed{\mathbf{1.33 \times 10^{-5}\, mol/L}}$}[/tex]
