Equilibrium Written Response
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1 Equilibrium Written Response January Consider the following equilibrium: CS2 (g) + 3Cl2 (g) CCl4 (g) + S2Cl2 (g) ΔH = -238 kj a) Sketch a potential energy diagram for the reaction above and label ΔH. (2 marks) b) Some CS2 is added and equilibrium is then reestablished. State the direction of the equilibrium shift and the resulting change in [Cl2] (1 mark) c)the temperature is decreased and equilibrium is then reestablished. What will the effect be on the value of Keq? (1 mark) April State Le Chatelier s Principle. (2 marks)
2 3. Consider the following equilibrium: H2 (g) + + I2 (g) 2HI (g) K eq = 7.1 X 10 2 At equilibrium, the [H 2] = 0.012mol/L and [HI] = 0.40 mol/l. What is the equilibrium concentration of I2? (2 marks) June Consider the following graph for the reaction: energy + N2O4 (g) 2NO2 (g) a) What is the stress imposed at time t1? (1 mark) b) What is the stress imposed at time t3? (1 mark) c) Calculate Keq for the equilibrium between t2 and t3. (2 marks)
3 August Consider the following equilibrium: H2 (g) + I2 (g) 2HI (g) K eq = 49 A 1.00 L container is initially filled with mol HI. Calculate the concentration of HI at equilibrium. January Consider the following diagram for a chemical system containing three substances represented by A, B and C: a) What feature of the graph indicates that the system reaches equilibrium? (1 mark) b) Write a balanced equation for the equilibrium reaction. (2 marks) c) Calculate K eq at equilibrium. (2 marks)
4 April Describe how enthalpy and entropy change, in the forward direction, as an exothermic reaction reaches equilibrium. Explain your reasoning. (2 marks) 3. Consider the graph below representing the following equilibrium: CH3CH2CH2CH3 (g) n-butane CH3CH(CH3)2 (g) isobutene Data for the graph was obtained from various equilibrium mixtures. Calculate the value of K eq for the equilibrium. (2 marks)
5 June Consider the following equilibrium system: N2 (g) + + 3H2 (g) 2NH3 (g) + + energy A 1.00 L container is filled with 5.0 mol NH3 and the system proceeds to equilibrium as indicated by the graph. a) Draw and label the graph for N2 and H2. (2 marks) b) Calculate the K eq for N2 (g) + + 3H2 (g) 2NH3 (g) + + energy (2 marks) 3. State Le Chatelier s Principle. (2 marks)
6 August Consider the following equilibrium: 4HCl ( g) + + O2 (g) 2H2O (g) + + 2Cl2 (g) + + energy a) How does the entropy change in the forward direction? Explain your reasoning. (1 mark) b) How does the enthalpy change in the forward direction? Explain your reasoning. (1 mark) 3. Consider the following equilibrium: H2 (g) + ) + I2 (g) 2HI ( g) Keq = 1.2 x 10 2 A 2.0 L flask is filled with 0.10 mol HI. Calculate the concentration of H2 at equilibrium. (3 marks) January Consider the following equilibrium: HInd + H2O H3O Ind - (yellow) (blue) The system is yellow and turns blue on the addition of NaOH. In terms of the forward and reverse reaction rates, explain why this shift occurs. (2 marks) 4. Consider the following equilibrium: Fe +3+ (aq) + SCN - - (aq) FeSCN +2+ (aq) Initially, 50.0mL of 0.10M Fe+ 3+ is added to 30.0mL of 0.20M SCN - At equilibrium, the concentration of FeSCN 2+ + is found to be 0.050M. Calculate the Keq for the reaction. (4 marks)
7 April Methanol, CH3OH, is produced industrially by the following reaction: CO(g) + 2H2(g) CH3OH(g) + heat a) State two different methods of shifting the equilibrium to the right. (1 mark) b) In terms of rates, explain why these methods cause the equilibrium to shift to the right. (1 mark) 4. Consider the following equilibrium: H2(g) + I2(g) 2HI(g) A 2.0L container is filled with mol of H2 and mol of I2. Equilibrium is reached after 15.0 minutes at which time there is mol of HI present. Sketch and label the graphs for the changes in concentrations of H2, I2 and HI for the time period of 0 to 30.0 minutes. (3 marks)
8 June Consider the observations for the following equilibrium: N 2 O 4(g) (colourless) 2NO 2(g) (brown) a) Sketch the potential energy curve on the graph below for this equilibrium. (1 mark) b) Explain the colour change using Le Chatelier s Principle. (1 mark) c) Other than changing temperature, what could be done to cause a shift to the left? (1 mark)
9 3. Consider the data obtained for the following equilibrium: Fe 3+ (aq) + SCN - (aq) FeSCN 2+ (aq) Calculate the [FeSCN 2+ ] in experiment #2. (3 marks) August Consider the following reaction: Fe 3+ (aq) + SCN - (aq) FeSCN 2+ (aq) (yellow) (colourless) (red) When a few drops of 6.0M NaOH is added to 25.0mL of the above system, a precipitate of Fe(OH)3 forms and the solution turns pale yellow. a) Explain this colour change in terms of Le Chatelier s Principle. (2 marks) b) Describe the effect on the rate of the reverse reaction as the color change occurs. (1 mark) 3. Consider the following equilibrium: 3I2 (g) + 3F2 (g) 2IF2(g) + I4F2 (g) Initially, 2.00 X 10-1 mol of I2 and 3.00 X 10-1 mol of F2 and put into a 10.00L flask. At equilibrium, [I4F2] is 2.00 X 10-3 M. Calculate the Keq. (4 marks)
10 January Consider the following equilibrium system: 2COF2(g) CO2 (g) + CF4 (g) Keq= 2.00 A 2.00 L container is filled with mol of COF2. Calculate the [COF2] at equilibrium. (5 marks) 3. Consider the following equilibrium system: Cu 2+ (aq) + 4Br - (aq) 2- CuBr 4 (aq) blue colourless green Cooling the equilibrium changes the colour from green to blue. What effect will the decrease in temperature have on K eq? Explain, using Le Chatelier s Principle. (2 marks) April A flask is initially filled with some HI. At equilibrium, the [HI] = 0.80 mol/l. What is the [H2] at equilibrium? (3 marks) 2HI (g) H 2(g) + I 2(g) Keq = Consider the following equilibrium system: 2NOCl (g) 2NO (g) + Cl2 (g) Keq= 1.6 X 10-5 A 1.00 L flask is filled with 0.20mol NOCl, 0.10mol NO and 0.10mol Cl2. State and show by calculation the direction in which the reaction proceeds to reach equilibrium. (4 marks)
11 June Write four statements that apply to all chemical equilibrium systems. (2 marks) 3. Consider the following equilibrium system: H2 (g) + Br2 (g) 2HBr (g) Keq= 14.8 A closed container was initially filled with equal moles of H2 and Br2. When equilibrium is reached, the [HBr] is mol/l. What was the initial [H2]? (4 marks) August Consider the following graph for the reaction: H2 (g) + I2 (g) 2HI (g) The temperature is increased at t1 and equilibrium is re-established at t2. a) On the above graph, sketch the line representing the [HI] between time t1 and t3. (1 mark) b) Calculate the value of Keq after t2. (2 marks)
12 3. Consider the following equilibrium system: 2SO2 (g) + O2(g) 2SO3 (g) A 1.00 L container is initially filled with 0.100mol SO mol O2. At equilibrium the O2 concentration is mol/l. Calculate the value of Keq. (4 marks) January Consider the following equilibrium: 2NF 2(g) N 2 F 4(g) Equilibrium shifts to the right when volume is decreased. Describe the changes in reaction rates that cause this shift to the right. 4. Consider the following: H 2(g) + I 2(g) 2HI (g) Initially, mol H 2 and mol I 2 are added to an empty 2.00L container. At equilibrium, the [I 2 ] = mol/l. What is the value of K eq? April State Le Chatelier s Principle. 4. Consider the following: CH 4(g) + H 2 O (g) CO (g) + 3H 2(g) Initially, mol CH 4, mol H 2 O, mol CO and mol H 2 are placed into a 4.00 L container. At equilibrium, the [H 2 ] = mol/l. What is the value of K eq?
13 June Chemical reactions tend toward a position of minimum enthalpy and maximum entropy. a) What is meant by the term enthalpy? b) What is meant by the term entropy? 4. Consider the following: H 2(g) + Br 2(g) 2HBr (g) K eq = 12.0 Initially, mol H 2 and mol Br 2 are placed into a 4.00 L container. What is the [HBr] at equilibrium? August Describe the nature of dynamic equilibrium. 4. Consider the following: N 2 O 4(g) 2NO 2(g) K eq = Initially, mol N 2 O 4 and mol NO 2 are placed into a 2.00 L container. Use calculations to determine the direction in which the reaction proceeds in order To reach equilibrium.
14 January Consider the following equilibrium: CH 4(g) + H 2 O (g) CO (g) + 3H 2(g) K eq Temperature Is the forward reaction in this equilibrium exothermic or endothermic? Explain your answer. 4. Consider the following equilibrium: CO (g) + Cl 2(g) COCl 2(g) At equilibrium, the system contains 2.00 mol CO, 1.00 mol Cl 2 and mol COCl 2 in a 2.0 L container. Calculate the value of K eq. April Consider the following reaction for the Haber Process for ammonia production: N 2(g) + 3H 2(g) 2NH 3(g) H=-92 kj The system is normally maintained at a temperature of approximately 500. a) Explain why 1000 is not used. b) Explain why 100 is not used. 4. Consider the following equilibrium: SO 3(g) + NO (g) NO 2(g) + SO 2(g) In an experiment, moles of SO 3 and moles of NO are placed in a 1.00L container. When equilibrium is achieved, [NO 2 ] = mol/l. Calculate the K eq value.
15 June Consider the following exothermic reaction:? C 3 H 8(g) + 5O 2(g) 3CO 2(g) + 4H 2 O (g) Explain, in terms of increasing or decreasing entropy and enthalpy, whether or not the reaction will reach equilibrium. 4. Given the reacting system: H 2(g) + I 2(g) 2HI (g) K eq = 64 Equal moles of H2, I2 and HI are placed in a 1.0L container. Use calculations to determine the direction the reaction will proceed in order to reach equilibrium. August Consider the following exothermic reaction: H 2(g) + I 2 2HI (g) The system is said to shift right as the result of the addition of extra H 2(g). Describe the sequence of changes in both forward and reverse reaction rates as the system goes from the original equilibrium to the new equilibrium. 4. Consider the following equilibrium system: 2NO (g) + Cl 2(g) 2NOCl (g) K eq = 8.5 A closed flask is found to contain 0.40 M NO (g), 0.32 M Cl 2(g) and 5.6 M NOCl (g). Use appropriate calculations to determine the direction the reaction proceeds to reach equilibrium. January Consider the following equilibrium system: C (s) + 2H 2(g) CH 4(g) H = -75 kj State three different ways to make more C (s) react.
16 Solutions: January 1998 April 1998
17 3. June August 1998
18 January
19 April June 1999
20 August Solution a) Entropy is decreasing. Five particles of gas (reactants) have more entropy than four particles of gas (products). (1 mark) b) Enthalpy is decreasing. The reaction is exothermic, so the enthalpy of the products is less than the enthalpy of the reactants. (1 mark) 3.
21 January Solution: Addition of OH- - decreases [H3O ++ ], decreasing the reverse rate. Since the forward rate is greater than the reverse rate, the system shifts to the right. (2 marks) 4. April Solution: a) Any two of the following: (1 mark) ~ adding reactant ~ removing methanol ~ decreasing the temperature ~ increasing the pressure by decreasing the volume b) The shift occurs because rate (f) must be greater than rate (r) as a result of the stress. (1 mark)
22 4. June
23 3. August
24 January
25 3. April
26 June 2001
27 August 2001
28 January Both forward and reverse rates increase as a result of increased concentration. The forward rate increases more than the reverse rate, so the equilibrium shifts to the right. 4.
29 April Le Chatelier s Principle states that when a stress is placed on an equilibrium system, the system will shift to offset this stress until a new equilibrium is reached. 4. June a) Enthalpy is a measure of heat content. b) Entropy is a measure of randomness. 4. August In a dynamic equilibrium, the forward reaction and reverse reaction continue to proceed at equal rates.
30 4. January This equilibrium is endothermic. Since K eq increases as a result of a temperature increase, equilibrium has shifted to the right. 4. April a) Equilibrium will be shifted to the left, reducing the yield of NH 3. b) The rate of the reaction would be too low. 4.
31 June Entropy increases in the forward reaction. 4. Enthalpy decreases in the forward reaction. Since both favour products, equilibrium will not be attained; or the reaction will go to completion. August As [H 2 ] is increased the forward rate increases. The forward rate will be greater than the reverse rate, resulting in more HI being produced. The [H 2 ] is consumed as the shift occurs and the forward rate starts to decrease. The increasing [HI] results in an increasing reverse rate. 4. At the new equilibrium the forward and reverse rates will be equal. January Any three of the following: - add H2 - remove CH4 - decrease temperature - increase pressure/decrease volume
Equilibrium Written Response
Equilibrium Written Response January 1998 2. Consider the following equilibrium: CS2 (g) + 3Cl2 (g) CCl4 (g) + S2Cl2 (g) H = -238 kj a) Sketch a potential energy diagram for the reaction above and label
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