Respuesta :
Answer:
The molar concentration of the original Cu²⁺ solution: M₁ = 0.196 M
Explanation:
Given: Reaction 1: Dilution-
Original Cu²⁺ solution: Volume: V₁ = 10.0 mL, Molarity: M₁=?
Diluted Cu²⁺ solution: Volume: V₂ = 75 mL, Molarity: M₂ = ?
Reaction 2: Titration of Diluted Cu²⁺ solution with-
Na₂S₂O₃ solution: Volume: V₃ = 13.05 mL, Molarity: M₃ = 0.15 M
The overall reaction involved is:
2Cu²⁺ + 2Na₂S₂O₃+ 4KI → 2CuI + 4K⁺ + 2NaI + Na₂S₄O₆
In this titration reaction, equal moles of Cu²⁺ and Na₂S₂O₃ reacts.
So to find the concentration of diluted Cu²⁺ solution (M₂), we use the equation:
[tex]M_{2}\times V_{2} = M_{3}\times V_{3}[/tex]
[tex]\Rightarrow M_{2} = \frac{M_{3}\times V_{3}}{V_{2}} = \frac{0.15\, M\times 13.05\, mL}{75\, mL}[/tex]
[tex]\Rightarrow M_{2} = 0.0261\, M[/tex]
Now, to find the concentration of the original Cu²⁺ solution (M₁), we use the equation:
[tex]M_{1}\times V_{1} = M_{2}\times V_{2}[/tex]
[tex]\Rightarrow M_{1} = \frac{M_{2}\times V_{2}}{V_{1}} = \frac{0.0261\, M\times 75\, mL}{10\, mL}[/tex]
[tex]\Rightarrow M_{1} = 0.196\, M[/tex]
Therefore, the molar concentration of the original Cu²⁺ solution: M₁ = 0.196 M
