topic 17 equilibrium
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Topic 17 Equilibrium. Liquid- vapour equilibrium The equilibrium law. 17.1 Liquid-vapour equilibrium Liquid Gas. At equilibrium : Rate of vaporisation = Rate of condensation The vapour pressure is the pressure the gas will give at equilibrium - PowerPoint PPT PresentationTRANSCRIPT
At equilibrium: Rate of vaporisation = Rate of condensationThe vapour pressure is the pressure the gas will give at equilibrium
The surface area of the liquid affect the time it takes to reach equilibrium, not the vapour pressure
• Vaporisation is an endothermic process, it requires energy to break bonds:
H2O (l) H2O (g) DHvap >0Enthalpy of vaporisation, DHvap
• Stronger bonds => Higher DHvap => Higher boiling point => Lower vapour pressure
Which compound has the highest boiling point?
• The liquid will boil when its vapour pressure equals the pressure on its surface (ie athmospheric pressure)
• Decrease the pressure => decrease the boiling point• Higher pressure => Higher boiling point
Distillation• A volatile (flyktig) liquid can be separated from a non-
volatile liquid by distillation (eg ethanol from water)• A mixture of two miscible and volatile liquids will boil
when the sum of the two vapour pressures equals the external pressure
• The gas phase will contain more of the more volatile compound than the liquid phase
17.2 The equilibrium law Solve equilibrium problems using the expression for Kc
SO2 (g) + NO2 (g) SO3 (g) + NO (g)A 2.0 dm3 flask was filled with 4.0 mol SO2 and 4.0 mol of NO2.
At equilibrium it was found to contain 2.6 mol of NO. Calculate Kc.
First we calculate concentrations and fill in the values in the table:
SO2 NO2 O3 NO
c (start) 4.0/2.0= 2.0 M
4.0/2.0= 2.0 M 0 0
c (change)
c (equlibrium) 2.6/2.0= 1.3 M
SO2 (g) + NO2 (g) SO3 (g) + NO (g)Then we calculate the changes in concentrations and fill in the
values in the table.We calculate the values at equilibrium.
Finally we insert the values in the Kc expression:
Kc=[SO2]*[NO2]/([SO3]*[NO])= 0.7*0.7/(1.3*1.3)= 3.45
SO2 NO2 O3 NO
c (start) 4.0/2.0= 2.0 M
4.0/2.0= 2.0 M 0 0
c (change) -1.3 M -1.3 M + 1.3 M + 1.3 M
c (equlibrium) 0.7 M 0.7 M 1.3 M 2.6/2.0= 1.3 M
Ethanol + Ethanoic acid Ethyl ethanoate + water
You mix 1 mol of ethanol and 1 mol of ethanoic acid. At equilibrium you find 0,67 mol of ethyl ethanoate.a. Calculate Kc
Ethanol + Ethanoic acid Ethyl ethanoate + waternstart 1 1 0 0
nequ 1-0.67 1-0.67 0.67 0.67
Kc = [Ethyl ethanoate]*[water] / [Ethanol]*[Ethanoic acid] = (0.67/V)2 / (0.33/V)2 = 4.1
b. How much ethyl ethanoate had been formed if you had started with 2 mol of ethanol and 1 mol of ethanoic acid?
a. Ethanol + Ethanoic acid Ethyl ethanoate + waternstart 2 1 0 0
nequ 2-x 1-x x x
Kc = 4.1 = x2 / (2-x)(1-x)
x1 = 0.85 mol and x2 =3.1 (not possible)
Examples to solve
In a flask with the volume of 0,500 dm3 2.00 g of PCl5 is inserted. The flask is heated to 250oC and PCl5 breakes down and you find the following equilibrium:
PCl5(g) PCl3(g) + Cl2(g).
At equilibrium you find 0,50 g of Cl2.
Kc = ?
In a vessel with constant volume and temperature you have an equilibrium mixture of: 0.60 mol SO3, 0.40 mol NO, 0.10 mol NO2, 0.80 mol SO2.
• Calculate Kc for the reaction:
SO2(g) + NO2(g) SO3(g) + NO(g)
• To the vessel 0.78 mol of NO is added.Calculate the number of mol of the compounds there will be at equilibrium.
• => Need quadratic expression to solve the problem, not in syllabus