Answer to Question #176319 in General Chemistry for Gali

Q176319

Ethylene glycol (C2H6O2) is a non-volatile and non-electrolyte compound with a density of 1.11 g.cm–3 at 25.0oC. Calculate the volume ethylene glycol that must be added to 675 cm3 of water to reduce the vapor pressure by 3.82% at 25.0oC. The density and vapor pressure of pure water at 25.0oC are 1.02 g.cm–3 and  

23.8 torr respectively.

Solution:

Step 1 : To find the reduced vapor pressure of water.

Vapor pressure of water at 25.0 ⁰C = 23.8 torr.

We have to find the volume of ethylene glycol that must be added to 675 cm³ of water, so as to reduce the vapor pressure by 3.82 % .

New vapor pressure will be equal = 100 - 3.82 = 96.18 % of initial vapor pressure.

96.18 % of 23.8 torr

"= 23.8 torr * \\frac{96.18}{100} = 22.891 torr."

Hence the reduced vapor pressure of water would be 22.89 torr.

Step 2 : To find the mole fraction of water when its vapor pressure is reduced to 22.89 torr.

Let P₁ be the vapor pressure of water in the solution and

P₁⁰ be the vapor pressure of pure water.

Then the vapor pressure of water in the solution is given by the expression

"P_1 = x_1 * P_1 ^0 ."

where x₁ is the mole fraction of water.

substitute P₁ = 22.89 torr and P₁⁰ = 23.8 torr, in the formula we have

"22.89\\space torr = x_1 * 23.8\\space torr."

divide both the side by 23.8 torr, we have

"x_1 = \\frac{22.89\\space torr }{23.8\\space torr} = 0.9618 ."

Step 3 : To find the moles of water in the solution.

volume of water = 675 cm³ .

density of water = 1.02 g/cm³ .

plug volume and density of water in the density formula and find the mass of the water.

"density = \\frac{mass}{volume } ;"

arranging this formula for mass we have

"mass = density * volume = 1.02\\space g\/cm^3 * 675\\space cm^3 = 688.5\\space grams."

molar mass of water = 18.0148 g/mol.

"= 38.219\\space mol\\space of \\space H_2O"

Step 4 : To find the moles of moles of ethylene glycol.

"total \\space moles \\space in \\space solution = \\frac{38.219\\space mol }{0.9618 } = 39.737\\space moles"

moles of ethylene glycol = moles of solution - moles of solvent

= 39.737 mol - 38.219 mol

= 1.5180 moles of ethylene glycol.

Step 5 : To convert 1.518 mol of ethylene glycol to grams.

molar mass of ethylene glycol = 62.0674 g/mole

grams of ethylene glycol = moles * molar mass

= 1.5180 mol * 62.0674 g/mol

= 94.2121 grams.

Step 6 : To convert 94.2121 grams of ethylene glycol to 'mL'

volume = mass/ density = 94.2121/ 1.11 g/mL

= 84.89 mL

Which in 3 significant figure is 84.9 mL

Hence we must add 84.9 mL of ethylene glycol to 675 mL of water, so as to reduce the vapor pressure by 3.82 % of initial vapor pressure of water.