Answer:
First question: 31 mL
Second question: T° freezing solution = -148.7°C
(It is logical to say -142°C if we look at the choices, but the value does not match)
Step-by-step explanation:
First question
Let's use dilution factor to solve the first question:
Diluited volume / Concentrated volume = M concentrated / M diluited
250 mL / Concentrated volume = 4 M / 0.5M
250 mL / Concentrated volume = 8
250 mL / 8 = Concentrated volume ⇒ 31 mL
We can also apply this formula
C₁ . V₁ = C₂ . V₂
4M . V₁ = 0.5M . 250 mL
V₁ = 31.25 mL
Second question → Colligative property about freezing point depression
ΔT frezzing = Kf . m . i
In this case i, is the Van't Hoff factor and it values 2
H₂O → H⁺ + OH⁻
m = molal (mol of solute in 1kg of solvent)
We have the volume of solvent, so with density we can know its mass.
Solvent mass = solvent volume / solvent density
Solvent mass = 2500 mL / 0.789 g/mL → 3168.5 g
(be careful with the units)
Solute mass = solute volume / solute density
498 g → solute mass, as the volume is 498 mL and density is 1 g/mL
Moles of water (mass / molar mass) ⇒ 498 g / 18 g/m = 27.6 moles
3168.5 g = 3.1685 kg
27.6 m / 3.1685 kg = 8.73 mol/kg
ΔT frezzing = T° freezing pure solvent - T° freezing solution
-114°C - (-T° freezing solution) = 1.99 °C/m . 8.73 m . 2
- T° freezing solution = 1.99 °C/m . 8.73 m . 2 + 114°C
T° freezing solution = -148.7°C