Molarlity: An acqueous solution contains `128g` of mehanol `(CH_(2) OH)` in `108g` of water. Calculate the molarity of the solution. Strategy: Convert the grams of `CH_(3) OH` to moles of `CH_(3) OH` express the mass of `H_(2) O` in kilogram and apply the definition of molality.

Molarlity: An acqueous solution contains `128g` of mehanol `(CH_(2) OH

1.	Molarlity: An acqueous solution contains `128g` of mehanol `(CH_(2) OH)` in `108g` of water. Calculate the molarity of the solution. Strategy: Convert the grams of `CH_(3) OH` to moles of `CH_(3) OH` express the mass of `H_(2) O` in kilogram and apply the definition of molality.
Answer» Step 1: Calculate the moles of `CH_(3) OH` Number of moles of `CH_(3) OH = ("Mass of" CH_(3) OH)/("Molar mass of" CH_(3) OH)` `= (128g)/(32.0 g mol^(-1))` `= 4.00 mol CH_(3) OH` Step 2: Convert the mass of `H_(2) O` into kilograms. Kilogram of `H_(2) O = (108g)/(1000g kg^(-1)) = 0.108 kg` Step 3: Apply the definition of molality. Molatiy `= ("Molar of solute")/("Mass of solvent(kg)")` `= (4.00 mol)/(0.108 kg) = 37.0m CH_(3) OH` Alternatively, in single setup, `(? mol CH_(3) OH)/(kg H_(2) O) = (128g CH_(3) OH)/(0.108 kg H_(2) O) xx (1 mol CH_(3) OH)/(32.0g CH_(3) OH)` `= (37.0 mol CH_(3) OH)/(kg H_(2) O)` `= 37.0m CH_(2) OH`

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Molarlity: An acqueous solution contains `128g` of mehanol `(CH_(2) OH)` in `108g` of water. Calculate the molarity of the solution. Strategy: Convert the grams of `CH_(3) OH` to moles of `CH_(3) OH` express the mass of `H_(2) O` in kilogram and apply the definition of molality.

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