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NEET CHEMISTRYSolutionsEasy

Question

The formation of an ideal solution from components A and B indicates:

A

A – B attraction force is greater than A – A and B – B

B

A – B attraction force is less than A – A and B – B

C

A – B attraction force is the same as A – A and B – B

D

The volume of the solution is different from the sum of the volume of the solute and solvent

Step-by-Step Solution

An ideal solution is formed when the intermolecular attractive forces between the solute and solvent molecules (A-B) are nearly equal to those between the pure component molecules (A-A and B-B). In such solutions, there is no change in enthalpy (ΔmixH=0\Delta_{mix}H = 0) or volume (ΔmixV=0\Delta_{mix}V = 0) upon mixing, meaning the volume of the solution is the sum of the volumes of the components . Deviations from this equality in forces lead to non-ideal behaviour (positive or negative deviations) .

Exam Context & Concepts Covered

This question aligns with the NEET CHEMISTRY syllabus, specifically targeting concepts from Solutions. Mastering this topic is crucial for scoring well in the upcoming medical entrance examinations. Solving conceptually related problems will help you understand the nuances of these concepts and improve your problem-solving speed.

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Isotonic solutions have the same:

A.Vapour pressure
B.Freezing temperature
C.Osmotic pressure
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A.25 g mol⁻¹
B.300 g mol⁻¹
C.350 g mol⁻¹
D.200 g mol⁻¹
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Which colligative property provides the most accurate method for determining the molecular weight of proteins and polymers?

A.Osmotic pressure
B.Lowering of vapour pressure
C.Lowering of freezing point
D.Elevation in boiling point
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The vapour pressure of a solvent decreased by 10 mm of Hg when a non-volatile solute was added to the solvent. The mole fraction of the solute in solution is 0.2. What would be the mole fraction of the solvent if the decrease in vapour pressure is 20 mm of Hg?

A.0.2
B.0.4
C.0.6
D.0.8
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Which one is not equal to zero for an ideal solution?

A.$\Delta H_{\text{mix}}$
B.$\Delta S_{\text{mix}}$
C.$\Delta V_{\text{mix}}$
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The freezing point depression constant ($K_f$) of benzene is $5.12 \text{ K kg mol}^{-1}$. The freezing point depression for the solution of molality $0.078 \text{ m}$ containing a non-electrolyte solute in benzene is:

A.0.80 K
B.0.40 K
C.0.60 K
D.0.20 K
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The molarity of a $0.2 \text{ N } Na_2CO_3$ solution will be:

A.0.05 M
B.0.2 M
C.0.1 M
D.0.4 M
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Of the following $0.10 \text{ m}$ aqueous solutions, which one will exhibit the largest freezing point depression?

A.$\text{KCl}$
B.$\text{C}_6\text{H}_{12}\text{O}_6$
C.$\text{Al}_2(\text{SO}_4)_3$
D.$\text{K}_2\text{SO}_4$
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