Calculate the freezing point and boiling point in each solution, assuming comple

Question

Calculate the freezing point and boiling point in each solution, assuming complete dissociation of the solute.

1) Calculate the freezing point of a solution containing 10.6 g FeCl3 in 151 g water.

2) Calculate the boiling point of a solution above.

3) Calculate the freezing point of a solution containing 6.2% KCl by mass (in water). Express your answer using two significant figures.

4) Calculate the boiling point of a solution above

5) Calculate the freezing point of a solution containing 0.152 m MgF2

6) Calculate the boiling point of a solution above

Explanation / Answer

Molality of solution = w/mwt*1000/wt of solvent
           
                    = (10.6/162.2)*(1000/151)

                   = 0.433 molal

i = vanhoff factor = 4

DTf = i*Kf*m

(0-x) = 4*1.86*0.433

x= freezing point of solution = -3.22 C

2) DTb = i*Kb*m

(x-100) = 4*0.512*0.433

x = boiling point of solution = 100.88 c

3)

Molality of solution = w/mwt*1000/wt of solvent
           
                    = (6.2/74.55)*(1000/93.8)

                   = 0.89 molal

i = vanhoff factor = 2

DTf = i*Kf*m

(0-x) = 2*1.86*0.89

x= freezing point of solution = -3.311 c

4) (x-100) = 2*0.512*0.89

x = boiling point of solution = 100.91 c

5) (0-x) = 3*1.86*0.152

x = freezing point of solution = -0.848 c

6) (x-100) = 3*0.512*0.152

x = boiling point of solution = 100.233 c

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