A solution containing 0.5 g of KCl dissolves in 100 g of water and freezes at −0·24°C. Calculate the degree of dissociation of the salt. (Kf for water = 1.86°C) Atomic weights, K = 39, Cl = 35.5. - Chemistry (Theory)

प्रश्न

A solution containing 0.5 g of KCl dissolves in 100 g of water and freezes at −0·24°C. Calculate the degree of dissociation of the salt. (K_f for water = 1.86°C) Atomic weights, K = 39, Cl = 35.5.

संख्यात्मक

उत्तर

Given: Mass of KCl = 0.5 g

Mass of water = 100 g = 0.1 kg

Freezing point depression (ΔT_f) = 0.24°C

K_f = 1.86°C kg/mol

Molar mass of KCl = 39 + 35.5 = 74.5 g/mol

Molality (m) = `0.5/(74.5 xx 0.1)`

= `0.5/7.45`

= 0.0671 mol/kg

We know that

ΔT_f = i K_f m

`i = (Delta T_f)/(K_f * m)`

= `0.24/(1.86 xx 0.0671)`

= `0.24/0.1248`

= 1.92

Degree of dissociation for KCl

\[\ce{KCl -> K+ + Cl-}\]

i = 1 + α

1.92 = 1 + α

α = 0.92

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Normality, Molality - Simple Problems Relating Mass, Molar Mass and Mole

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अध्याय 2: Solutions - QUESTIONS FROM ISC EXAMINATION PAPERS [पृष्ठ १३१]

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नूतन Chemistry Part 1 and 2 [English] Class 12 ISC

अध्याय 2 Solutions
QUESTIONS FROM ISC EXAMINATION PAPERS | Q 19. | पृष्ठ १३१

2014-2015 (March) (with solutions)

Q 2.1.1 | 1 mark

A solution containing 0.5 g of KCl dissolves in 100 g of water and freezes at −0·24°C. Calculate the degree of dissociation of the salt. (Kf for water = 1.86°C) Atomic weights, K = 39, Cl = 35.5. - Chemistry (Theory)

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A solution containing 0.5 g of KCl dissolves in 100 g of water and freezes at −0·24°C. Calculate the degree of dissociation of the salt. (Kf for water = 1.86°C) Atomic weights, K = 39, Cl = 35.5. - Chemistry (Theory)

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