Answer
🧪 Problem Statement
5 moles of liquid X and 10 moles of liquid Y make a solution with a vapour pressure of 70 torr.
The vapour pressures of pure X and Y are 63 torr and 78 torr, respectively.
Question: Which of the following is true regarding the described solution?
📘 Concept: Raoult’s Law
For an ideal solution, the total vapour pressure is given by:
Ptotal = XX · P0X + XY · P0Y
🧮 Step 1: Mole Fractions
- Total moles = 5 + 10 = 15
- XX = 5 / 15 = 1/3
- XY = 10 / 15 = 2/3
🔍 Step 2: Ideal Vapour Pressure
Pideal = (1/3) × 63 + (2/3) × 78 = 21 + 52 = 73 torr
📉 Step 3: Comparison
- Actual Vapour Pressure = 70 torr
- Ideal Vapour Pressure = 73 torr
Since actual < ideal, the solution shows negative deviation.
💡 Step 4: Interpretation
Negative deviation occurs when:
- Intermolecular forces between components are stronger than in pure forms.
- Fewer molecules escape into vapour phase.
- Solution may show volume contraction and release heat (exothermic).
❌ Misconceptions
- Positive deviation: Occurs when actual vapour pressure is greater than ideal.
- Ideal solution: Follows Raoult’s Law exactly.
- Volume increase: Happens in positive deviations, not here.
✅ Final Answer
Option (2): The solution shows negative deviation.
🔚 Conclusion
The solution has a vapour pressure lower than predicted by Raoult’s Law, indicating stronger interactions between X and Y molecules. Hence, it shows a negative deviation.