For an aqueous solution of hf, determine the van't hoff factor assuming 0% and 100% ionization, respectively. a solution is made by dissolving 0.0100 mol hf in enough water to make 1.00 l of solution. at 22 Â°c, the osmotic pressure of the solution is 0.307 atm. what is the percent ionization of this acid?

Question

Chemistry

Chad Solomon

9 April, 22:12

For an aqueous solution of hf, determine the van't hoff factor assuming 0% and 100% ionization, respectively. a solution is made by dissolving 0.0100 mol hf in enough water to make 1.00 l of solution. at 22 Â°c, the osmotic pressure of the solution is 0.307 atm. what is the percent ionization of this acid?

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Chelsea Rubio · Answer 1

According to Osmotic pressure equation:

π = i M R T

When π = 0.307 atm & M = 0.01 mol & R (constant) = 0.0821 L-atom/mol-K &

T = 22+273 = 295 Kelvin

So Van't half vector i = π / (MRT)

= 0.307 / (0.01 * 0.0821 * 295)

= 1.27

When there is no dissociation, i = no. of moles of Hf in 1 L of solution = (1-X)

and when there is a complete dissociation so it is equal 2X according to this equation

HF (aq) + H2O (L) ⇆ H3O (aq) + F (aq)

(1-X) X X

∴ i = (1-X) + (2x)

1.27 = 1+X

∴X = 1.27 - 1 = 0.27

∴ the percent ionization of the acid X = 27 %