Question

The conductivity of a 0.01 M solution of a 1 : 1 weak electrolyte at 298 K is 1.5 × 10⁻⁴ S cm⁻¹.

i) molar conductivity of the solution

ii) degree of dissociation and the dissociation constant of the weak electrolyte

Given that

\[\ce{λ^∘_{cation}}\] = 248.2 S cm² mol⁻¹

\[\ce{λ^∘_{anion}}\] = 51.8 S cm² mol⁻¹

Answer 1

Given C = 0.01 M

K = 1.5 × 10⁻⁴ S cm⁻¹

\[\ce{λ^∘_{cation}}\] = 248.2 S cm² mol⁻¹

\[\ce{λ^∘_{anion}}\] = 51.8 S cm² mol⁻¹

i) Molar conductivity

K = 1.5 × 10⁻⁴ S cm⁻¹

1 cm⁻¹ = 10² m⁻¹

= 1.5 × 10²

`Λ_"m"^∘ = ("K"("sm"^-1) xx 10^-3)/("C"("in M"))` mol⁻¹ m³

= `(1.5 xx 10^2 xx 10^-3)/0.01` S mol⁻¹ m²

= 1.5 × 10⁻³ S m² mol⁻¹

ii) Degree of dissociation α = `(Λ^∘)/(Λ_∞^∘)`

`(Λ_∞^∘) = λ_"cation"^∘ + λ_"anion"^∘`

= (248.2 + 51.8) S cm² mol⁻¹

= 300 S cm² mol⁻¹

= 300 × 10⁻⁴ S m² mol⁻¹

α = `(1.5 xx 10^-3  "S m"^2  "mol"^-1)/(300 xx 10^-4  "S m"^2  "mol"^-1)`

α = 0.05

K_a = `(α^2"C")/(1 - α)`

= `((0.05)^2 (0.01))/(1 - 0.05)`

= `(25 xx 10^-4 xx 10^-2)/(95 xx 10^-2)`

= 0.26 × 10⁻⁴

= 2.6 × 10⁻⁵