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calculate the mass of a non volatile solute molar...

Question:
Calculate the mass of a non-volatile solute (molar mass 40 g mol^-1) which should be dissolved in 114 g octane to reduce its vapour pressure to 80%.

Answer:

Let the vapour pressure of pure octane be p₁⁰.

Then, the vapour pressure of the octane after dissolving the non-volatile solute is 80/100 p₁⁰ = 0.8 p₁⁰.

Molar mass of solute, M₂ = 40 g mol ^{- 1}

Mass of octane, w₁ = 114 g

Molar mass of octane, (C₈H₁₈), M₁ = 8 × 12 + 18 × 1 = 114 g mol^{- 1}

Applying the relation,

(p₁⁰ - p₁) / p₁⁰= (w₂x M₁) / (M₂x w₁ )

⇒ (p₁⁰ - 0.8 p₁⁰) / p₁⁰= (w₂x 114) / (40 x 114 )

⇒ 0.2 p₁⁰ / p₁⁰= w₂/ 40

⇒ 0.2 = w₂/ 40

⇒ w₂ = 8 g

Hence, the required mass of the solute is 8 g.

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Question:
Calculate the mass of a non-volatile solute (molar mass 40 g mol^-1) which should be dissolved in 114 g octane to reduce its vapour pressure to 80%.

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Question: Calculate the mass of a non-volatile solute (molar mass 40 g mol-1) which should be dissolved in 114 g octane to reduce its vapour pressure to 80%.

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Question:
Calculate the mass of a non-volatile solute (molar mass 40 g mol^-1) which should be dissolved in 114 g octane to reduce its vapour pressure to 80%.