To determine the percentage association of the solute X , we need to use the boiling point elevation formula. The association of solute affects the number of particles in the solution, which in turn affects the boiling point elevation.
The boiling point elevation
∆Tb is given by:
∆Tb=i⋅Kb⋅mWhere:
∆Tb is the boiling point elevation
i is the van 't Hoff factor, which indicates the number of particles into which a solute dissociates or associates in solution
Kb is the ebullioscopic constant (boiling point elevation constant)
m is the molality of the solution
Given data:
Boiling point of pure water
=100∘CObserved boiling point of the solution
=101.04∘CBoiling point elevation,
∆Tb=101.04∘C−100∘C=1.04∘CKb for water
=0.52K∕mMolality,
m=4mWe can now rearrange the boiling point elevation formula to solve for
i :
i=Substitute the given values:
i=Calculate the value of
i :
i==0.5The van 't Hoff factor for dimerization is given by:
i=1−α+Here,
α represents the degree of association. We have
i=0.5 :
0.5=1−α+ 1−0.5=0.5=α=1Therefore, the degree of association
α is 1 . This indicates a
100% association of the solute X in water.
So, the correct answer is:
Option B: 100