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The equilibrium constant, Kp, for the reaction The equilibrium constant, K<sub>p</sub>, for the reaction is 55.2 at 425 \degree C. A rigid cylinder at that temperature contains 0.127 atm of hydrogen, 0.134 atm of iodine, and 1.055 atm of hydrogen iodide. Is the system at equilibrium? A) Yes. B) No, the forward reaction must proceed to establish equilibrium. C) No, the reverse reaction must proceed to establish equilibrium. D) Need to know the volume of the container before deciding. E) Need to know the starting concentrations of all substances before deciding. is 55.2 at 425 °\degree C. A rigid cylinder at that temperature contains 0.127 atm of hydrogen, 0.134 atm of iodine, and 1.055 atm of hydrogen iodide. Is the system at equilibrium?


A) Yes.
B) No, the forward reaction must proceed to establish equilibrium.
C) No, the reverse reaction must proceed to establish equilibrium.
D) Need to know the volume of the container before deciding.
E) Need to know the starting concentrations of all substances before deciding.

F) A) and E)
G) A) and D)

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At a certain temperature the reaction CO2(g) + H2(g) At a certain temperature the reaction CO<sub>2</sub>(g) + H<sub>2</sub>(g) CO(g) + H<sub>2</sub>O(g) has K<sub>c</sub> = 2.50. If 2.00 mol of carbon dioxide and 1.5 mol of hydrogen are placed in a 5.00 L vessel and equilibrium is established, what will be the concentration of carbon monoxide? A) 0.091 M B) 0.191 M C) 0.209 M D) 0.913 M E) 1.05 M CO(g) + H2O(g) has Kc = 2.50. If 2.00 mol of carbon dioxide and 1.5 mol of hydrogen are placed in a 5.00 L vessel and equilibrium is established, what will be the concentration of carbon monoxide?


A) 0.091 M
B) 0.191 M
C) 0.209 M
D) 0.913 M
E) 1.05 M

F) B) and D)
G) All of the above

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The equilibrium constant, Kp, for the reaction The equilibrium constant, K<sub>p</sub>, for the reaction at 986 \degree C is 0.63. A rigid cylinder at that temperature contains 1.2 atm of carbon monoxide, 0.20 atm of water vapor, 0.30 atm of carbon dioxide, and 0.27 atm of hydrogen. Is the system at equilibrium? A) Yes. B) No, the forward reaction must proceed to establish equilibrium. C) No, the reverse reaction must proceed to establish equilibrium. D) Need to know the volume of the container before deciding. E) Need to know the starting concentrations of all substances before deciding. at 986 °\degree C is 0.63. A rigid cylinder at that temperature contains 1.2 atm of carbon monoxide, 0.20 atm of water vapor, 0.30 atm of carbon dioxide, and 0.27 atm of hydrogen. Is the system at equilibrium?


A) Yes.
B) No, the forward reaction must proceed to establish equilibrium.
C) No, the reverse reaction must proceed to establish equilibrium.
D) Need to know the volume of the container before deciding.
E) Need to know the starting concentrations of all substances before deciding.

F) A) and E)
G) A) and D)

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The following reaction is at equilibrium at one atmosphere, in a closed container. The following reaction is at equilibrium at one atmosphere, in a closed container. Which, if any, of the following actions will decrease the total amount of CO<sub>2</sub> gas present at equilibrium? A) adding N<sub>2</sub> gas to double the pressure B) adding more solid NaOH C) decreasing the volume of the container D) removing half of the solid NaHCO<sub>3</sub> E) None of these choices is correct. Which, if any, of the following actions will decrease the total amount of CO2 gas present at equilibrium?


A) adding N2 gas to double the pressure
B) adding more solid NaOH
C) decreasing the volume of the container
D) removing half of the solid NaHCO3
E) None of these choices is correct.

F) C) and E)
G) B) and E)

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Carbon monoxide and chlorine combine in an equilibrium reaction to produce the highly toxic product, phosgene (COCl2) . Carbon monoxide and chlorine combine in an equilibrium reaction to produce the highly toxic product, phosgene (COCl<sub>2</sub>) . If the equilibrium constant for this reaction is K<sub>c</sub> = 248, predict, if possible, what will happen when the reactants and product are combined with the concentrations shown. [CO] = [Cl<sub>2</sub>] = 0.010 M; [COCl<sub>2</sub>] = 0.070 M A) The reaction will proceed to the right. B) The reaction will proceed to the left. C) The reaction is at equilibrium, and no change in concentrations will occur. D) The container volume needs to be specified before a prediction can be made. E) The temperature needs to be specified before a prediction can be made. If the equilibrium constant for this reaction is Kc = 248, predict, if possible, what will happen when the reactants and product are combined with the concentrations shown. [CO] = [Cl2] = 0.010 M; [COCl2] = 0.070 M


A) The reaction will proceed to the right.
B) The reaction will proceed to the left.
C) The reaction is at equilibrium, and no change in concentrations will occur.
D) The container volume needs to be specified before a prediction can be made.
E) The temperature needs to be specified before a prediction can be made.

F) A) and E)
G) All of the above

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Ammonium iodide dissociates reversibly to ammonia and hydrogen iodide. Ammonium iodide dissociates reversibly to ammonia and hydrogen iodide. At 400 \degree C, K<sub>p</sub> = 0.215. Calculate the partial pressure of ammonia at equilibrium when a sufficient quantity of ammonium iodide is heated to 400 \degree C. A) 0.103 atm B) 0.215 atm C) 0.232 atm D) 0.464 atm E) 2.00 atm At 400 °\degree C, Kp = 0.215. Calculate the partial pressure of ammonia at equilibrium when a sufficient quantity of ammonium iodide is heated to 400 °\degree C.


A) 0.103 atm
B) 0.215 atm
C) 0.232 atm
D) 0.464 atm
E) 2.00 atm

F) B) and C)
G) None of the above

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Write the mass-action expression, Qc, for the following chemical reaction. Write the mass-action expression, Q<sub>c</sub>, for the following chemical reaction. A) B) C) D) E) None of these choices is correct.


A) Write the mass-action expression, Q<sub>c</sub>, for the following chemical reaction. A) B) C) D) E) None of these choices is correct.
B) Write the mass-action expression, Q<sub>c</sub>, for the following chemical reaction. A) B) C) D) E) None of these choices is correct.
C) Write the mass-action expression, Q<sub>c</sub>, for the following chemical reaction. A) B) C) D) E) None of these choices is correct.
D) Write the mass-action expression, Q<sub>c</sub>, for the following chemical reaction. A) B) C) D) E) None of these choices is correct.
E) None of these choices is correct.

F) A) and E)
G) D) and E)

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A mixture of 0.500 mole of carbon monoxide and 0.400 mole of bromine was placed into a rigid 1.00-L container and the system was allowed to come to equilibrium. The equilibrium concentration of COBr2 was 0.233 M. What is the value of Kc for this reaction? A mixture of 0.500 mole of carbon monoxide and 0.400 mole of bromine was placed into a rigid 1.00-L container and the system was allowed to come to equilibrium. The equilibrium concentration of COBr<sub>2</sub> was 0.233 M. What is the value of K<sub>c</sub> for this reaction? A) 5.23 B) 1.22 C) 1.165 D) 0.858 E) 0.191


A) 5.23
B) 1.22
C) 1.165
D) 0.858
E) 0.191

F) C) and D)
G) All of the above

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Write the mass-action expression, Qc , for the following chemical reaction. Write the mass-action expression, Q<sub>c</sub> , for the following chemical reaction. A) B) C) D) E)


A) Write the mass-action expression, Q<sub>c</sub> , for the following chemical reaction. A) B) C) D) E)
B) Write the mass-action expression, Q<sub>c</sub> , for the following chemical reaction. A) B) C) D) E)
C) Write the mass-action expression, Q<sub>c</sub> , for the following chemical reaction. A) B) C) D) E)
D) Write the mass-action expression, Q<sub>c</sub> , for the following chemical reaction. A) B) C) D) E)
E) Write the mass-action expression, Q<sub>c</sub> , for the following chemical reaction. A) B) C) D) E)

F) A) and C)
G) B) and E)

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Nitrogen dioxide decomposes according to the reaction Nitrogen dioxide decomposes according to the reaction at 25 \degree C. What is the value for K<sub>c</sub>? A) 1.81 * 10¯<sup>16</sup> B) 1.83 * 10¯<sup>14</sup> C) 4.48 *10¯<sup>13</sup> D) 1.10 *10¯<sup>11</sup> E) 1.11 * 10¯<sup>9</sup> at 25 °\degree C. What is the value for Kc?


A) 1.81 * 10¯16
B) 1.83 * 10¯14
C) 4.48 *10¯13
D) 1.10 *10¯11
E) 1.11 * 10¯9

F) B) and C)
G) B) and D)

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The following reaction is at equilibrium in a sealed container. The following reaction is at equilibrium in a sealed container. Which, if any, of the following actions will increase the value of the equilibrium constant, K<sub>c</sub>? A) adding a catalyst B) adding more N<sub>2</sub> C) increasing the pressure D) lowering the temperature E) None of these choices is correct. Which, if any, of the following actions will increase the value of the equilibrium constant, Kc?


A) adding a catalyst
B) adding more N2
C) increasing the pressure
D) lowering the temperature
E) None of these choices is correct.

F) A) and E)
G) A) and B)

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Magnesium hydroxide is used in several antacid formulations. When it is added to water it dissociates into magnesium and hydroxide ions. Magnesium hydroxide is used in several antacid formulations. When it is added to water it dissociates into magnesium and hydroxide ions. The equilibrium constant at 25 \degree C is 8.9 *10¯<sup>12</sup>. One hundred grams of magnesium hydroxide is added to 1.00 L of water and equilibrium is established. What happens to the solution if another 10 grams of Mg(OH) <sub>2</sub> are now added to the mixture? A) The hydroxide ion concentration will decrease. B) The hydroxide ion concentration will increase. C) The hydroxide ion concentration will be unchanged. D) The solution will become supersaturated. E) None of these conclusions is justified without additional information. The equilibrium constant at 25 °\degree C is 8.9 *10¯12. One hundred grams of magnesium hydroxide is added to 1.00 L of water and equilibrium is established. What happens to the solution if another 10 grams of Mg(OH) 2 are now added to the mixture?


A) The hydroxide ion concentration will decrease.
B) The hydroxide ion concentration will increase.
C) The hydroxide ion concentration will be unchanged.
D) The solution will become supersaturated.
E) None of these conclusions is justified without additional information.

F) A) and E)
G) A) and C)

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Consider the reversible reaction: Consider the reversible reaction: If the concentrations of both NO<sub>2</sub> and N<sub>2</sub>O<sub>4</sub> are 0.016 mol L¯<sup>1</sup>, what is the value of Q<sub>c</sub>? A) 0.016 B) 0.50 C) 1.0 D) 2.0 E) 63 If the concentrations of both NO2 and N2O4 are 0.016 mol L¯1, what is the value of Qc?


A) 0.016
B) 0.50
C) 1.0
D) 2.0
E) 63

F) B) and D)
G) C) and D)

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What is the mass-action expression, Qc, for the following chemical reaction? What is the mass-action expression, Q<sub>c</sub>, for the following chemical reaction? A) B) C) D) E) None of these choices is correct.


A) What is the mass-action expression, Q<sub>c</sub>, for the following chemical reaction? A) B) C) D) E) None of these choices is correct.
B) What is the mass-action expression, Q<sub>c</sub>, for the following chemical reaction? A) B) C) D) E) None of these choices is correct.
C) What is the mass-action expression, Q<sub>c</sub>, for the following chemical reaction? A) B) C) D) E) None of these choices is correct.
D) What is the mass-action expression, Q<sub>c</sub>, for the following chemical reaction? A) B) C) D) E) None of these choices is correct.
E) None of these choices is correct.

F) All of the above
G) D) and E)

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Sodium hydrogen carbonate decomposes above 110 °\degree C to form sodium carbonate, water, and carbon dioxide. Sodium hydrogen carbonate decomposes above 110 \degree C to form sodium carbonate, water, and carbon dioxide. One thousand grams of sodium hydrogen carbonate are added to a reaction vessel, the temperature is increased to 200 \degree C, and the system comes to equilibrium. What happens in this system if another 50 g of sodium carbonate are now added? A) The partial pressure of carbon dioxide will increase. B) The partial pressure of carbon dioxide will decrease. C) The partial pressure of carbon dioxide will be unchanged. D) The amounts of all products will be greater when equilibrium is reestablished. E) None of these conclusions is justified without knowing the equilibrium constant. One thousand grams of sodium hydrogen carbonate are added to a reaction vessel, the temperature is increased to 200 °\degree C, and the system comes to equilibrium. What happens in this system if another 50 g of sodium carbonate are now added?


A) The partial pressure of carbon dioxide will increase.
B) The partial pressure of carbon dioxide will decrease.
C) The partial pressure of carbon dioxide will be unchanged.
D) The amounts of all products will be greater when equilibrium is reestablished.
E) None of these conclusions is justified without knowing the equilibrium constant.

F) B) and C)
G) A) and B)

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Consider the equilibrium reaction: Consider the equilibrium reaction: Which of the following correctly describes the relationship between K<sub>c</sub> and K<sub>p</sub> for the reaction? A) K<sub>p</sub> = K<sub>c</sub> B) K<sub>p</sub> = (RT) K<sub>c</sub> C) K<sub>p</sub> = (RT) <sup>2</sup>K<sub>c</sub> D) K<sub>p</sub> = K<sub>c</sub>/RT E) K<sub>p</sub> = K<sub>c</sub>/(RT) <sup>2</sup> Which of the following correctly describes the relationship between Kc and Kp for the reaction?


A) Kp = Kc
B) Kp = (RT) Kc
C) Kp = (RT) 2Kc
D) Kp = Kc/RT
E) Kp = Kc/(RT) 2

F) A) and B)
G) None of the above

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In a chemical reaction, if the starting concentrations of reactants are increased, then the equilibrium constant Kc will also increase.

A) True
B) False

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At 25 °\degree C, the equilibrium constant Kc for the reaction 2A(g) At 25 \degree C, the equilibrium constant K<sub>c</sub> for the reaction 2A(g) B(g) + C(g) is 0.035. A mixture of 8.00 moles of B and 12.00 moles of C in a 20.0 L container is allowed to come to equilibrium. What is the equilibrium concentration of A? A) < 0.100 M B) 0.339 M C) 0.678 M D) 6.78 M E) 13.56 M B(g) + C(g) is 0.035. A mixture of 8.00 moles of B and 12.00 moles of C in a 20.0 L container is allowed to come to equilibrium. What is the equilibrium concentration of A?


A) < 0.100 M
B) 0.339 M
C) 0.678 M
D) 6.78 M
E) 13.56 M

F) A) and C)
G) B) and D)

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The reaction of nitric oxide to form dinitrogen oxide and nitrogen dioxide is exothermic. The reaction of nitric oxide to form dinitrogen oxide and nitrogen dioxide is exothermic. What effect will be seen if the temperature of the system at equilibrium is raised by 25 \degree C? A) The partial pressure of NO will increase. B) The partial pressure of NO will decrease. C) The partial pressure of NO<sub>2</sub> will increase. D) The partial pressures of NO and N<sub>2</sub>O will increase. E) All three partial pressures will increase. What effect will be seen if the temperature of the system at equilibrium is raised by 25 °\degree C?


A) The partial pressure of NO will increase.
B) The partial pressure of NO will decrease.
C) The partial pressure of NO2 will increase.
D) The partial pressures of NO and N2O will increase.
E) All three partial pressures will increase.

F) A) and C)
G) None of the above

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At high temperatures, carbon reacts with O2 to produce CO as follows: At high temperatures, carbon reacts with O<sub>2</sub> to produce CO as follows: When 0.350 mol of O<sub>2</sub> and excess carbon were placed in a 5.00-L container and heated, the equilibrium concentration of CO was found to be 0.060 M. What is the equilibrium constant, K<sub>c</sub>, for this reaction? A) 0.010 B) 0.072 C) 0.090 D) 0.17 E) 1.2 When 0.350 mol of O2 and excess carbon were placed in a 5.00-L container and heated, the equilibrium concentration of CO was found to be 0.060 M. What is the equilibrium constant, Kc, for this reaction?


A) 0.010
B) 0.072
C) 0.090
D) 0.17
E) 1.2

F) A) and E)
G) B) and D)

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