Question

When dissolved in 1000 g of water, which chemical compound will produce a solution with the greatest freezing point depression?

Answer 1

The correct answer among the choice presented above would be option C. The solution that will have the greatest freezing point depression is 11 g of calcium fluoride (CaF2). This is because it has higher concentration among other solutions. Also, when it ionizes 3 ions are formed.

Answer 2

Answer:

c) 11 g of calcium fluoride (CaF2)

Explanation:

Given :

Mass of solvent = M = 1000 g = 1 kg

Formula:

The depression in freezing point is given as:

$\Delta T = k_{f}*m$

where kf = freezing point depression constant for solvent

$m = molality = \frac{moles of solute}{kg solvent}$

$moles = \frac{mass}{molar mass}$

Calculation:

a) Mass of NaCl = 5.0 g

Molar mass = 58.44 g/mol

$Moles NaCl = \frac{5}{58.44} =0.0856$

$Molality(NaCl) = \frac{0.0856 moles}{ 1 kg water} = 0.0856 m$

$\Delta T = k_{f}*0.0856$

b) Mass of KCl = 9.2 g

Molar mass = 74.55 g/mol

$Moles KCl = \frac{9.2}{74.55} =0.1234$

$Molality(KCl) = \frac{0.1234 moles}{ 1 kg water} = 0.1234 m$

$\Delta T = k_{f}*0.1234$

c) Mass of CaF2 = 11.0 g

Molar mass = 78 g/mol

$Moles CaF2= \frac{11}{78} =0.1410$

$Molality(CaF2) = \frac{0.1410 moles}{ 1 kg water} = 0.1410 m$

$\Delta T = k_{f}*0.1410$

d) Mass of glucose = 20.0 g

Molar mass = 180 g/mol

$Moles glucose = \frac{20}{180} =0.1111$

$Molality(glucose) = \frac{0.1111 moles}{ 1 kg water} = 0.1111 m$

$\Delta T = k_{f}*0.1111$

Therefore, CaF2 will produce the greatest freezing point depression