Visha took two aqueous solutions one containing 7.5g of urea and the other containing 42.57g of substance Z in 100g of water , respectively. It was observed that both the solutions froze at the same temperature. Calculate the molar mass if Z
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Given:
- The mass of water (w2) = 100 g
- The mass of urea (w1) = 7.5 g
- The mass of Z (w2) = 42.75 g
- The molar mass of urea (Mm1) = 60 g/mol
- Both the solutions have same freezing point.
To find:
The molar mass (Mm) of Z.
Solution:
- Since both the solutions have the same freezing point the change in freezing points (ΔTf) for both the solutions is same.
- ΔTf = Kf*m, hence both the solutions should have the same molality.
- molality = moles of solute/ weight of solvent(in Kg)
- Therefore, (w1*1000)/(Mm1*w2) = (w3*1000)/(Mm*w2) ⇒ Mm = w3*Mm1/w1 = 42.75*60/7.5 = 342 g/mol
Answer:
The molar mass (Mm) of Z = 342 g/mol
Answered by
19
Given:
The mass of water (w2) = 100 g
The mass of urea (w1) = 7.5 g
The mass of Z (w2) = 42.75 g
The molar mass of urea (Mm1) = 60 g/mol
Both the solutions have same freezing point.
To find:
The molar mass (Mm) of Z.
Solution:
Since both the solutions have the same freezing point the change in freezing points (ΔTf) for both the solutions is same.
ΔTf = Kf*m, hence both the solutions should have the same molality.
molality = moles of solute/ weight of solvent(in Kg)
Therefore, (w1*1000)/(Mm1*w2) = (w3*1000)/(Mm*w2) ⇒ Mm = w3*Mm1/w1 = 42.75*60/7.5 = 342 g/mol
Answer:
The molar mass (Mm) of Z = 342 g/mol
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