Answer:
The concentration of the Cu²⁺ solution in the 10,0 mL volumetric flask is 5,425×10⁻³ M Cu²⁺
Explanation:
The first dilution from a 2,17M Cu²⁺ solution gives:
2,17 M Cu²⁺ ×[tex]\frac{5,00 mL}{500,0 mL}[/tex] = 0,0217 M Cu²⁺solution
The second dilution gives as concentration:
0,0217 M Cu²⁺ ×[tex]\frac{25,00 mL}{100,0 mL}[/tex] = 5,425×10⁻³ M Cu²⁺ solution
I hope it helps!
Answer:
5.43 × 10⁻³ M
Explanation:
A chemist needs to create a series of standard Cu²⁺(aq) solutions for an absorbance experiment. For the first standard, he uses a pipet to transfer 5.00 mL of a 2.17 M Cu²⁺(aq) stock solution to a 500.0 mL volumetric flask, and he adds enough water to dilute to the mark. He then uses a second pipet to transfer 25.00 mL of the second solution to a 100.0 mL volumetric flask, and he adds enough water to dilute to the mark. Calculate the concentration of the Cu²⁺(aq) solution in the 100.0 mL volumetric flask.
Two successive dilutions are performed. In each one, we will use the dilution rule.
M₁ × V₁ = M₂ × V₂
where,
M: molarity
V: volume
1: initial solution (concentrated)
2: final solution (diluted)
First dilution
M₁ × V₁ = M₂ × V₂
2.17 M × 5.00 mL = M₂ × 500.0 mL
M₂ = 0.0217 M
This is the initial concentration for the second dilution.
Second dilution
M₁ × V₁ = M₂ × V₂
0.0217 M × 25.00 mL = M₂ × 100.0 mL
M₂ = 5.43 × 10⁻³ M
