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Deck 13: Spontaneous Change: Entropy and Gibbs Energy
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Choose the INCORRECT statement.
A)The van't Hoff equation is ln
B)Keq is independent of temperature.
C)In a thermodynamic equilibrium constant expression,the activity of a gas is replaced by its partial pressure in atmosphere.
D)In a Keq expression,the activity of an aqueous species can be approximated by the numerical value of its molarity.
E)If ΔG = 0,the process is at equilibrium.
A)The van't Hoff equation is ln
B)Keq is independent of temperature.
C)In a thermodynamic equilibrium constant expression,the activity of a gas is replaced by its partial pressure in atmosphere.
D)In a Keq expression,the activity of an aqueous species can be approximated by the numerical value of its molarity.
E)If ΔG = 0,the process is at equilibrium.
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Question
For the reaction,
What is ΔrS°?
A)137.4 J/mol ∙ K
B)-137.4 J/mol ∙ K
C)33.8 J/mol ∙ K
D)171.2 J/mol ∙ K
E)-33.8 J/mol ∙ K
What is ΔrS°?
A)137.4 J/mol ∙ K
B)-137.4 J/mol ∙ K
C)33.8 J/mol ∙ K
D)171.2 J/mol ∙ K
E)-33.8 J/mol ∙ K
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Consider the following reaction:
What is ΔrS° in J/mol K?
A)127.6 J/mol K
B)-127.6 J/mol K
C)3.0 J/mol K
D)-258.2 J/mol K
E)-3.0 J/mol K
What is ΔrS° in J/mol K?
A)127.6 J/mol K
B)-127.6 J/mol K
C)3.0 J/mol K
D)-258.2 J/mol K
E)-3.0 J/mol K
Question
For the reaction
What is DrSo?
A)262.5 J/mol ∙ K
B)-85.1 J/mol ∙ K
C)-164.7 J/mol ∙ K
D)164.7 J/mol ∙ K
E)85.1 J/mol ∙ K
What is DrSo?
A)262.5 J/mol ∙ K
B)-85.1 J/mol ∙ K
C)-164.7 J/mol ∙ K
D)164.7 J/mol ∙ K
E)85.1 J/mol ∙ K
Question
Consider the following reaction.
What is ΔrG° for this reaction in kJ?
A)-804
B)-476
C)-386
D)-413
E)-799
What is ΔrG° for this reaction in kJ?
A)-804
B)-476
C)-386
D)-413
E)-799
Question
Consider the following reaction:
What is ΔrS° for this reaction in J/mol K?
A)-284.6 J/mol K
B)284.6 J/mol K
C)-92.3 J/mol K
D)94.6 J/mol K
E)92.3 J/mol K
What is ΔrS° for this reaction in J/mol K?
A)-284.6 J/mol K
B)284.6 J/mol K
C)-92.3 J/mol K
D)94.6 J/mol K
E)92.3 J/mol K
Question
Consider the following reaction:
What is ΔrS° for the above reaction in J/mol K?
A)-49.9 J/mol K
B)49.9 J/mol K
C)80.7 J/mol K
D)115.2 J/mol K
E)-80.7 J/mol K
What is ΔrS° for the above reaction in J/mol K?
A)-49.9 J/mol K
B)49.9 J/mol K
C)80.7 J/mol K
D)115.2 J/mol K
E)-80.7 J/mol K
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For the reaction
What is DrSo?
A)-88.5 J/mol ∙ K
B)-176.7 J/mol ∙ K
C)219 J/mol ∙ K
D)176.7 J/mol ∙ K
E)-219.1 J/mol ∙ K
What is DrSo?
A)-88.5 J/mol ∙ K
B)-176.7 J/mol ∙ K
C)219 J/mol ∙ K
D)176.7 J/mol ∙ K
E)-219.1 J/mol ∙ K
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Deck 13: Spontaneous Change: Entropy and Gibbs Energy
1
Entropy is related to the way in which the energy of a system is distributed among the available microscopic energy levels.
True
2
The entropy of a pure perfect crystal at 25 K is zero.
False
3
A zero ΔG means the system is at equilibrium.
True
4
The chemical potential of a substance,m,represents the ability of a substance to change the Gibbs energy of a system.
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5
An increase or a decrease in the number of microstates parallels an increase or
decrease in the number of microscopic particles and the space available to them.
decrease in the number of microscopic particles and the space available to them.
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6
A non spontaneous reaction can be made to occur by coupling it with a spontaneous reaction to form an overall spontaneous reaction.
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7
A spontaneous process will occur only if an external action is continually applied.
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8
A spontaneous process:
A)will happen quickly
B)releases large amounts of energy
C)requires an external action in order to begin reacting
D)will continue on its own once begun
E)is never endothermic
A)will happen quickly
B)releases large amounts of energy
C)requires an external action in order to begin reacting
D)will continue on its own once begun
E)is never endothermic
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9
In a reversible reaction,a forward spontaneous reaction corresponds to a negative ΔG.
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10
?rG ? is independent of temperature.
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11
Entropy changes depend on the quantities of substances involved.
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12
As the activity a of a substances increases so does its chemical potential m.
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13
Non spontaneous reactions and spontaneous reactions cannot be coupled.
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14
ΔG is positive for a spontaneous reaction.
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15
Standard Gibbs energy of formation requires the reactants be compounds in their standard state.
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16
If a process is spontaneous,the reverse process is non spontaneous.
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17
The entropy of a system always increases for a spontaneous process.
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18
A microstate is a specific microscopic configuration describing how particles
of a system are distributed among the available energy levels.
of a system are distributed among the available energy levels.
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19
Standard molar entropy,S∘,increases as molecular complexity increases.
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20
An increase in entropy is observed when a liquid forms from a gas.
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21
The change in Gibbs energy for a reaction:
A)= ΔH - TΔS
B)= q (heat)
C)= ΔS + TΔH
D)= ΔS - TΔH
E)= ΔH + TΔS
A)= ΔH - TΔS
B)= q (heat)
C)= ΔS + TΔH
D)= ΔS - TΔH
E)= ΔH + TΔS
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22
Which material has the largest entropy?
A)pure water
B)powdered sugar
C)salt water
D)crystalline salt
E)cannot be determined
A)pure water
B)powdered sugar
C)salt water
D)crystalline salt
E)cannot be determined
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23
Which of the following has the highest entropy?
A)1 mole of liquid water at 30 °C
B)1 mole of water vapor at 30 °C
C)1 mole of regular ice at -10 °C
D)1 mole of "dry ice" at -10 °C
E)1 mole of water under 10 atm of pressure at -10 °C
A)1 mole of liquid water at 30 °C
B)1 mole of water vapor at 30 °C
C)1 mole of regular ice at -10 °C
D)1 mole of "dry ice" at -10 °C
E)1 mole of water under 10 atm of pressure at -10 °C
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24
In a sealed container,the rate of dissolving is equal to the rate of crystallization.Therefore we would expect:
A)ΔG < 0
B)ΔG > 0
C)ΔG = 0
D)ΔS = 0
E)must know ΔH to determine
A)ΔG < 0
B)ΔG > 0
C)ΔG = 0
D)ΔS = 0
E)must know ΔH to determine
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25
The change in Gibbs energy of a reaction:
A)= work
B)predicts speed
C)= ΔH + TΔS
D)depends on the standard state chosen
E)tells us if the reaction is spontaneous or not
A)= work
B)predicts speed
C)= ΔH + TΔS
D)depends on the standard state chosen
E)tells us if the reaction is spontaneous or not
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26
Find correct statements.
I.A spontaneous process is a process that occurs in a system left to itself.
II.A non spontaneous process will not occur unless some external force is applied.
III.If a reaction is spontaneous,the reverse is also spontaneous.
IV.Only spontaneous processes occur naturally.
V.Entropy is inversely proportional to the degree of randomness.
A)I ,II and V
B)II ,III ,and IV
C)I ,II ,and IV
D)I ,III and IV
E)I ,IV ,and V
I.A spontaneous process is a process that occurs in a system left to itself.
II.A non spontaneous process will not occur unless some external force is applied.
III.If a reaction is spontaneous,the reverse is also spontaneous.
IV.Only spontaneous processes occur naturally.
V.Entropy is inversely proportional to the degree of randomness.
A)I ,II and V
B)II ,III ,and IV
C)I ,II ,and IV
D)I ,III and IV
E)I ,IV ,and V
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27
The normal melting and boiling points of SO2 are 198 and 263 K,respectively.For a plot of the standard molar entropy of SO2 versus temperature,which of the following is INCORRECT?
A)At 263 K,S° is constant.
B)S° increases with increasing temperature.
C)S° equals zero at 0 K.
D)At 198 K,S° increases by the value of △fusS.
E)At 263 K,S° jumps suddenly as SO2 undergoes phase change.
A)At 263 K,S° is constant.
B)S° increases with increasing temperature.
C)S° equals zero at 0 K.
D)At 198 K,S° increases by the value of △fusS.
E)At 263 K,S° jumps suddenly as SO2 undergoes phase change.
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28
The maximum quantity of energy available for useful work is:
A)constant
B)Gibbs energy change
C)the entropy change
D)the internal energy change
E)the enthalpy change
A)constant
B)Gibbs energy change
C)the entropy change
D)the internal energy change
E)the enthalpy change
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29
Indicate the statement(s)which is (are)true for the process:
Al+3(aq)+ 3 OH-(aq)→ Al(OH)3(s)
If it occurs in a closed container.
I.ΔS increases because the final molecule is more complicated.
II.Entropy decreases because the product is in the solid phase.
III.The two ions achieve a high degree of order as they crystalize,therefore ΔS is positive.
IV.Entropy of the system is unchanged because the system is sealed and at a constant temperature.
A)I and II
B)I and III
C)II only
D)I,II,IV
E)I and IV
Al+3(aq)+ 3 OH-(aq)→ Al(OH)3(s)
If it occurs in a closed container.
I.ΔS increases because the final molecule is more complicated.
II.Entropy decreases because the product is in the solid phase.
III.The two ions achieve a high degree of order as they crystalize,therefore ΔS is positive.
IV.Entropy of the system is unchanged because the system is sealed and at a constant temperature.
A)I and II
B)I and III
C)II only
D)I,II,IV
E)I and IV
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30
The Gibbs energy change for a reaction is -298 kJ.The reaction is therefore:
A)exothermic
B)irreversible
C)spontaneous
D)endothermic
E)nonspontaneous
A)exothermic
B)irreversible
C)spontaneous
D)endothermic
E)nonspontaneous
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31
Which of the following substances under equal conditions and in the same phase has the greatest molar entropy?
A)NO
B)NO2
C)N2O3
D)N2O4
E)N2O5
A)NO
B)NO2
C)N2O3
D)N2O4
E)N2O5
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32
If ΔG < 0 for a reaction,then the reaction is said to be:
A)endothermic
B)reversible
C)spontaneous
D)exothermic
E)fast
A)endothermic
B)reversible
C)spontaneous
D)exothermic
E)fast
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33
Which of the following has the largest molar entropy?
A)I2(g)
B)Xe(g)
C)H2(g)
D)He(g)
E)O2(g)
A)I2(g)
B)Xe(g)
C)H2(g)
D)He(g)
E)O2(g)
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34
Choose the INCORRECT statement.
A)The third law of thermodynamics states that the entropy of a pure crystal at 298 K is zero.
B)?rS° = ? (? S°) products - ? (? S°) reactants .
C)The activity of pure liquids or pure solids is 1.
D)?rG ° = -RT ln Keq.
E)?rG ° = ?rH° - T?rS°.
A)The third law of thermodynamics states that the entropy of a pure crystal at 298 K is zero.
B)?rS° = ? (? S°) products - ? (? S°) reactants .
C)The activity of pure liquids or pure solids is 1.
D)?rG ° = -RT ln Keq.
E)?rG ° = ?rH° - T?rS°.
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35
Which of the following best expresses the increase in entropy associated with melting and sublimation,respectively?
A)ΔfusS - ΔsubS = 0
B)ΔfusS = 144.3 J/mol-K,ΔsubS = 9.0 J/mol-K
C)ΔfusS = 9.0 J/mol-K,ΔsubS = -144.3 J/mol-K
D)ΔH for both processes is zero
E)ΔfusS = 9.0 J/mol-K,ΔsubS= 144.3 J/mol-K
A)ΔfusS - ΔsubS = 0
B)ΔfusS = 144.3 J/mol-K,ΔsubS = 9.0 J/mol-K
C)ΔfusS = 9.0 J/mol-K,ΔsubS = -144.3 J/mol-K
D)ΔH for both processes is zero
E)ΔfusS = 9.0 J/mol-K,ΔsubS= 144.3 J/mol-K
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36
Which of the following statements are true?
I.Liquids have more entropy than their solids.
II.Solutions have more entropy than the solids dissolved.
III.Gases and their liquids have equal entropy.
IV.Gases have less entropy than their solids.
V.Entropy of a substance increases as its temperature increases.
A)II ,III ,and V
B)I ,III ,and V
C)I ,IV ,and V
D)I ,II ,and V
E)II ,IV and V
I.Liquids have more entropy than their solids.
II.Solutions have more entropy than the solids dissolved.
III.Gases and their liquids have equal entropy.
IV.Gases have less entropy than their solids.
V.Entropy of a substance increases as its temperature increases.
A)II ,III ,and V
B)I ,III ,and V
C)I ,IV ,and V
D)I ,II ,and V
E)II ,IV and V
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37
Which of the following relations is true for the molar entropy of sublimation of a substance?
A)ΔsubS = ΔfusS + ΔvapS
B)ΔsubS < ΔvapS
C)ΔsubS = ΔfusS - ΔvapS
D)ΔsubS < (ΔfusS + ΔvapS)
E)ΔsubS > (ΔfusS + ΔvapS)
A)ΔsubS = ΔfusS + ΔvapS
B)ΔsubS < ΔvapS
C)ΔsubS = ΔfusS - ΔvapS
D)ΔsubS < (ΔfusS + ΔvapS)
E)ΔsubS > (ΔfusS + ΔvapS)
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38
Choose the INCORRECT statement.
A)One form of the second law of thermodynamics is all spontaneous processes produce an increase in the entropy of the universe.
B)Gibbs energy is defined by: G = H - TS.
C)If ΔG < 0,the process is spontaneous.
D)If ΔG > 0,the process is nonspontaneous.
E)If ΔG = 0,the process is spontaneous.
A)One form of the second law of thermodynamics is all spontaneous processes produce an increase in the entropy of the universe.
B)Gibbs energy is defined by: G = H - TS.
C)If ΔG < 0,the process is spontaneous.
D)If ΔG > 0,the process is nonspontaneous.
E)If ΔG = 0,the process is spontaneous.
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39
Which of the following processes would result in a decrease in system entropy?
A)melting of an ice cube
B)sublimation of a moth ball
C)evaporation of a puddle of gasoline
D)a glass of cool lemonade warming in the sun
E)condensation of water vapor on a cold windshield
A)melting of an ice cube
B)sublimation of a moth ball
C)evaporation of a puddle of gasoline
D)a glass of cool lemonade warming in the sun
E)condensation of water vapor on a cold windshield
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40
Choose the correct statements concerning entropy.
I.Following the mixing of two gases,ΔS is positive.
II.Entropy is a thermodynamic property related to the degree of disorder.
III.If the temperature of a gas is decreased,ΔS is positive.
IV.Molecules in the liquid state have higher entropy than the same molecules in the gaseous state.
A)I and III
B)I,II,III
C)I and II
D)I,II,IV
E)II and III
I.Following the mixing of two gases,ΔS is positive.
II.Entropy is a thermodynamic property related to the degree of disorder.
III.If the temperature of a gas is decreased,ΔS is positive.
IV.Molecules in the liquid state have higher entropy than the same molecules in the gaseous state.
A)I and III
B)I,II,III
C)I and II
D)I,II,IV
E)II and III
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41
For the reaction PCl5(g)→ PCl3(g)+ Cl2(g)at 298 K,Keq = 1.87 × 10-7,what is ΔrG ° and is the reaction spontaneous?
A)3.84 × 104 kJ/mol,no
B)7.68 kJ/mol,no
C)-7.68 kJ/mol,yes
D)38.4 kJ/mol,no
E)-38.4 kJ/mol,yes
A)3.84 × 104 kJ/mol,no
B)7.68 kJ/mol,no
C)-7.68 kJ/mol,yes
D)38.4 kJ/mol,no
E)-38.4 kJ/mol,yes
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42
A reaction is spontaneous if:
I.ΔG is a negative value
II.both enthalpy and entropy increase
III.ΔH is negative and ΔS is positive
IV.both enthalpy and entropy decrease
V.ΔH is positive and ΔS is negative
A)I and III
B)I and II
C)II and V
D)III and IV
E)II and IV
I.ΔG is a negative value
II.both enthalpy and entropy increase
III.ΔH is negative and ΔS is positive
IV.both enthalpy and entropy decrease
V.ΔH is positive and ΔS is negative
A)I and III
B)I and II
C)II and V
D)III and IV
E)II and IV
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43
The equilibrium constant for the reaction below is 7.2 × 10-4 at 298 K and 1 atm.
HNO2(aq)+ H2O(l)⇌ NO2-(aq)+ H3O+(aq)
When [HNO2(aq)] = 1.0 M and [NO2-(aq)] = [H3O+(aq)] = 1.0 × 10-5 M,calculate ΔG.
A)-39.1 kJ/mol
B)+17.9 kJ/mol
C)-17.9 kJ/mol
D)+39.1 kJ/mol
E)-23.02 kJ/mol
HNO2(aq)+ H2O(l)⇌ NO2-(aq)+ H3O+(aq)
When [HNO2(aq)] = 1.0 M and [NO2-(aq)] = [H3O+(aq)] = 1.0 × 10-5 M,calculate ΔG.
A)-39.1 kJ/mol
B)+17.9 kJ/mol
C)-17.9 kJ/mol
D)+39.1 kJ/mol
E)-23.02 kJ/mol
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44
The following reaction is exothermic.
2 N2O(g)→ 2 N2(g)+ O2(g)
This means the reaction:
A)will be spontaneous at all temperatures
B)will be spontaneous only at high temperature
C)will be spontaneous only at low temperatures
D)is not spontaneous at any temperature
E)cannot determine without temperature
2 N2O(g)→ 2 N2(g)+ O2(g)
This means the reaction:
A)will be spontaneous at all temperatures
B)will be spontaneous only at high temperature
C)will be spontaneous only at low temperatures
D)is not spontaneous at any temperature
E)cannot determine without temperature
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45
Consider the reaction of 25.0 mL of 0.20 M AgNO3(aq)with 25.0 mL of 0.20 M NaBr(aq)to form AgBr(s)at 25 °C.What is ΔG for this reaction? The Ksp of AgBr is 5.0 × 10-13 at 25 °C.
A)-58.8 kJ/mol
B)-70.2 kJ/mol
C)+58.8 kJ/mol
D)+70.2 kJ/mol
E)-28.3 kJ/mol
A)-58.8 kJ/mol
B)-70.2 kJ/mol
C)+58.8 kJ/mol
D)+70.2 kJ/mol
E)-28.3 kJ/mol
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46
The equilibrium constant for the reaction below is 7.2 × 10-4 at 298 K and 1 atm.
HNO2(aq)+ H2O(l)⇌ NO2-(aq)+ H3O+(aq)
Which of the below statements is TRUE under the following conditions:
[HNO2(aq)] = 1.0 M and [NO2-(aq)] = [H3O+(aq)] = 1.0 × 10-5 M
A)the reaction is at equilibrium
B)the forward reaction is spontaneous
C)the reverse reaction is spontaneous
D)the forward reaction is endothermic
E)the reverse reaction is exothermic
HNO2(aq)+ H2O(l)⇌ NO2-(aq)+ H3O+(aq)
Which of the below statements is TRUE under the following conditions:
[HNO2(aq)] = 1.0 M and [NO2-(aq)] = [H3O+(aq)] = 1.0 × 10-5 M
A)the reaction is at equilibrium
B)the forward reaction is spontaneous
C)the reverse reaction is spontaneous
D)the forward reaction is endothermic
E)the reverse reaction is exothermic
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47
The following reaction is endothermic.
2 NH3(g)→ N2(g)+ 3 H2(g)
This means the reaction:
A)will be spontaneous at high temperature
B)will be spontaneous at low temperature
C)is not spontaneous at any temperature
D)is spontaneous at all temperatures
E)cannot determine without temperature
2 NH3(g)→ N2(g)+ 3 H2(g)
This means the reaction:
A)will be spontaneous at high temperature
B)will be spontaneous at low temperature
C)is not spontaneous at any temperature
D)is spontaneous at all temperatures
E)cannot determine without temperature
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48
Which of the following combinations of signs for △H and △S will always result in a reaction being non spontaneous?
A)ΔH+,ΔS-
B)ΔH-,ΔS+
C)ΔH-,ΔS-
D)ΔH+,ΔS+
E)cannot determine without temperature
A)ΔH+,ΔS-
B)ΔH-,ΔS+
C)ΔH-,ΔS-
D)ΔH+,ΔS+
E)cannot determine without temperature
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49
For Cl2O(g)+ 3/2 O2(g)→ 2 ClO2 △rH° = 126 kJ/mol,and ΔrS° = -74.9 J/(mol K)at 377 °C.What is Keq?
A)0.97
B)6.12 × 10-7
C)4.27 × 10-22
D)9.17 × 10-15
E)1.07 × 1014
A)0.97
B)6.12 × 10-7
C)4.27 × 10-22
D)9.17 × 10-15
E)1.07 × 1014
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50
For an exothermic reaction to be non spontaneous at high temperatures,the enthalpy must be ________ while the entropy is ________.
A)positive,also positive
B)positive,negative
C)a relatively small negative value,also negative
D)a relatively large negative value,positive
E)a very large negative value,also negative
A)positive,also positive
B)positive,negative
C)a relatively small negative value,also negative
D)a relatively large negative value,positive
E)a very large negative value,also negative
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51
Choose the INCORRECT statement about coupled reactions.
A)The usual practice of coupling reactions is to join two nonspontaneous reactions.
B)The usual reason to couple reactions is to produce an overall spontaneous reaction.
C)The reaction added to a nonspontaneous reaction needs to be spontaneous.
D)The reaction added to a nonspontaneous reaction needs to be more spontaneous than the original reaction is nonspontaneous.
E)One of the coupled reactions has a negative ΔG,the other a positive ΔG.
A)The usual practice of coupling reactions is to join two nonspontaneous reactions.
B)The usual reason to couple reactions is to produce an overall spontaneous reaction.
C)The reaction added to a nonspontaneous reaction needs to be spontaneous.
D)The reaction added to a nonspontaneous reaction needs to be more spontaneous than the original reaction is nonspontaneous.
E)One of the coupled reactions has a negative ΔG,the other a positive ΔG.
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52
Consider the reaction:
N2(g)+ 3 X2(g)→ 2 NX3(g)
△fH° (kJ/mol)0.0 0.0 43
S° (J/(mol K))192 210 172
What is Keq for this reaction at 591 K?
A)2.3 × 1017
B)4.3 × 10-18
C)1.04
D)0.96
E)132
N2(g)+ 3 X2(g)→ 2 NX3(g)
△fH° (kJ/mol)0.0 0.0 43
S° (J/(mol K))192 210 172
What is Keq for this reaction at 591 K?
A)2.3 × 1017
B)4.3 × 10-18
C)1.04
D)0.96
E)132
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53
Which of the following quantities for an element has a value of zero in the standard state?
I.DfH°
II.DfG°
III.S°
A)I only
B)II only
C)III only
D)I and II
E)I,II,and III
I.DfH°
II.DfG°
III.S°
A)I only
B)II only
C)III only
D)I and II
E)I,II,and III
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54
If ΔG is positive for a certain reaction,then:
A)the reaction is spontaneous
B)the reverse of the reaction is spontaneous
C)the system is in equilibrium
D)one would need to know the Kelvin temperature to determine spontaneity
E)there would be no reaction possible for a negative value
A)the reaction is spontaneous
B)the reverse of the reaction is spontaneous
C)the system is in equilibrium
D)one would need to know the Kelvin temperature to determine spontaneity
E)there would be no reaction possible for a negative value
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55
For the reaction: CO(g)+ 2 H2(g)→ CH3OH(g)
Kp = 91.4 at 350 K and Kp = 2.05 × 10-4 at 298 K.
What is the value of ΔrH°?
A)49.9 kJ/mol
B)2.08 × 103 kJ/mol
C)3.74 × 10-2 kJ/mol
D)217 kJ/mol
E)446 kJ/mol
Kp = 91.4 at 350 K and Kp = 2.05 × 10-4 at 298 K.
What is the value of ΔrH°?
A)49.9 kJ/mol
B)2.08 × 103 kJ/mol
C)3.74 × 10-2 kJ/mol
D)217 kJ/mol
E)446 kJ/mol
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56
For the reaction PCl5 (g)⇌ PCl3 (g)+ Cl2 (g),Kc = 0.0454 at 261 °C.If a vessel is filled with theses gases such that the initial concentrations are [PCl5] = 0.2 M,[PCl3] = 0.2 M,and [Cl2] = 2.25 M,the value of the reaction quotient is:
A)Qc = 1.8
B)Qc = 0.56
C)Qc = 2.8
D)Qc = 0.0454
E)Qc = 1
A)Qc = 1.8
B)Qc = 0.56
C)Qc = 2.8
D)Qc = 0.0454
E)Qc = 1
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57
If the vapor pressure of water in an open system at 25 °C is 23.8 mmHg,what is ΔrG for the reaction below at 25 °C?
H2O(l)→ H2O(g,23.8 mmHg)
A)0 kJ/mol
B)-8.58 kJ/mol
C)+8.58 kJ/mol
D)-0.720 kJ/mol
E)+0.720 kJ/mol
H2O(l)→ H2O(g,23.8 mmHg)
A)0 kJ/mol
B)-8.58 kJ/mol
C)+8.58 kJ/mol
D)-0.720 kJ/mol
E)+0.720 kJ/mol
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58
Which of the following quantities is practically independent of temperature?
I.ΔH
II.ΔS
III.ΔG
A)I only
B)II only
C)III only
D)I and II
E)I,II,and III
I.ΔH
II.ΔS
III.ΔG
A)I only
B)II only
C)III only
D)I and II
E)I,II,and III
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59
Choose the INCORRECT statement.
A)The van't Hoff equation is ln
B)Keq is independent of temperature.
C)In a thermodynamic equilibrium constant expression,the activity of a gas is replaced by its partial pressure in atmosphere.
D)In a Keq expression,the activity of an aqueous species can be approximated by the numerical value of its molarity.
E)If ΔG = 0,the process is at equilibrium.
A)The van't Hoff equation is ln
B)Keq is independent of temperature.
C)In a thermodynamic equilibrium constant expression,the activity of a gas is replaced by its partial pressure in atmosphere.
D)In a Keq expression,the activity of an aqueous species can be approximated by the numerical value of its molarity.
E)If ΔG = 0,the process is at equilibrium.
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60
For the reaction PCl5 (g)⇌ PCl3 (g)+ Cl2 (g),Kc = 0.0454 at 261 °C.If a vessel is filled with theses gases such that the initial concentrations are [PCl5] = 0.2 M,[PCl3] = 0.2 M,and [Cl2] = 2.25 M,which of the following statements is TRUE?
A)the reaction is at equilibrium
B)the forward reaction is spontaneous
C)the reverse reaction is spontaneous
D)the forward reaction is exothermic
E)the reverse reaction is exothermic
A)the reaction is at equilibrium
B)the forward reaction is spontaneous
C)the reverse reaction is spontaneous
D)the forward reaction is exothermic
E)the reverse reaction is exothermic
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61
For the reaction,
What is ΔrS°?
A)137.4 J/mol ∙ K
B)-137.4 J/mol ∙ K
C)33.8 J/mol ∙ K
D)171.2 J/mol ∙ K
E)-33.8 J/mol ∙ K
What is ΔrS°?
A)137.4 J/mol ∙ K
B)-137.4 J/mol ∙ K
C)33.8 J/mol ∙ K
D)171.2 J/mol ∙ K
E)-33.8 J/mol ∙ K
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62
What is ΔrG° at 25 °C?
2O3(g)→ 3 O2(g)ΔrH° = -284 kJ ΔrS° = 139 J/K
A)-145 kJ
B)-243 kJ
C)-325 kJ
D)-281 kJ
E)-287 kJ
2O3(g)→ 3 O2(g)ΔrH° = -284 kJ ΔrS° = 139 J/K
A)-145 kJ
B)-243 kJ
C)-325 kJ
D)-281 kJ
E)-287 kJ
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63
Calculate the entropy change for methanol at its normal boiling point of 64.5 °C.ΔrH° = 38.0 kJ/mol.
A)0.589 kJ/mol ∙ K
B)0.112 kJ/mol ∙ K
C)589 kJ/mol ∙ K
D)112 kJ/mol ∙ K
E)0.589 × 10-2 kJ/mol ∙ K
A)0.589 kJ/mol ∙ K
B)0.112 kJ/mol ∙ K
C)589 kJ/mol ∙ K
D)112 kJ/mol ∙ K
E)0.589 × 10-2 kJ/mol ∙ K
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64
If the enthalpy of vaporization of chloromethane,CH3Cl,is 21.5 kJ/mol at the normal boiling point,249 K,calculate Δvap S°.
A)86.3 J mol-1 K-1
B)5.35 J mol-1 K-1
C)11.6 J mol-1 K-1
D)896 J mol-1 K-1
A)86.3 J mol-1 K-1
B)5.35 J mol-1 K-1
C)11.6 J mol-1 K-1
D)896 J mol-1 K-1
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65
What is ΔrG° at 25 °C?
CO(g)+ 2 H2(g)→ CH3OH(g)ΔrH° = -90.7 kJ ΔrS° = -221 J/K
A)-90.9 kJ
B)-24.8 kJ
C)-156.6 kJ
D)-96.2 kJ
E)-85.2 kJ
CO(g)+ 2 H2(g)→ CH3OH(g)ΔrH° = -90.7 kJ ΔrS° = -221 J/K
A)-90.9 kJ
B)-24.8 kJ
C)-156.6 kJ
D)-96.2 kJ
E)-85.2 kJ
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66
Order the following by increasing entropy.
CO(g),COCl2(g),CO2(g),CaO(s)
A)CO2 < CO < CaO < COCl2
B)CaO < CO < CO2 < COCl2
C)COCl2 < CO < CaO < CO2
D)CO2 < CaO < COCl2 < CO
E)CO < CaO < COCl2 < CO2
CO(g),COCl2(g),CO2(g),CaO(s)
A)CO2 < CO < CaO < COCl2
B)CaO < CO < CO2 < COCl2
C)COCl2 < CO < CaO < CO2
D)CO2 < CaO < COCl2 < CO
E)CO < CaO < COCl2 < CO2
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67
Predict whether ΔS is positive or negative for the following process:
H2(g)+ 1/2 O2(g)→ H2O(g)
A)negative
B)positive
C)ΔS doesn't change.
D)There is not enough information to determine.
H2(g)+ 1/2 O2(g)→ H2O(g)
A)negative
B)positive
C)ΔS doesn't change.
D)There is not enough information to determine.
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68
Consider the following reaction:
What is ΔrS° in J/mol K?
A)127.6 J/mol K
B)-127.6 J/mol K
C)3.0 J/mol K
D)-258.2 J/mol K
E)-3.0 J/mol K
What is ΔrS° in J/mol K?
A)127.6 J/mol K
B)-127.6 J/mol K
C)3.0 J/mol K
D)-258.2 J/mol K
E)-3.0 J/mol K
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69
For the reaction
What is DrSo?
A)262.5 J/mol ∙ K
B)-85.1 J/mol ∙ K
C)-164.7 J/mol ∙ K
D)164.7 J/mol ∙ K
E)85.1 J/mol ∙ K
What is DrSo?
A)262.5 J/mol ∙ K
B)-85.1 J/mol ∙ K
C)-164.7 J/mol ∙ K
D)164.7 J/mol ∙ K
E)85.1 J/mol ∙ K
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70
Consider the following reaction.
What is ΔrG° for this reaction in kJ?
A)-804
B)-476
C)-386
D)-413
E)-799
What is ΔrG° for this reaction in kJ?
A)-804
B)-476
C)-386
D)-413
E)-799
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71
Consider the following reaction:
What is ΔrS° for this reaction in J/mol K?
A)-284.6 J/mol K
B)284.6 J/mol K
C)-92.3 J/mol K
D)94.6 J/mol K
E)92.3 J/mol K
What is ΔrS° for this reaction in J/mol K?
A)-284.6 J/mol K
B)284.6 J/mol K
C)-92.3 J/mol K
D)94.6 J/mol K
E)92.3 J/mol K
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72
Consider the following reaction:
What is ΔrS° for the above reaction in J/mol K?
A)-49.9 J/mol K
B)49.9 J/mol K
C)80.7 J/mol K
D)115.2 J/mol K
E)-80.7 J/mol K
What is ΔrS° for the above reaction in J/mol K?
A)-49.9 J/mol K
B)49.9 J/mol K
C)80.7 J/mol K
D)115.2 J/mol K
E)-80.7 J/mol K
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73
What is ΔrG° at 25 °C?
CO2(g)→ CO2(aq)ΔrH° = -19.4 kJ ΔrS° = 92.3 J/K
A)2.1 kJ
B)-46.9 kJ
C)-17.1 kJ
D)-19.5 kJ
E)-21.7 kJ
CO2(g)→ CO2(aq)ΔrH° = -19.4 kJ ΔrS° = 92.3 J/K
A)2.1 kJ
B)-46.9 kJ
C)-17.1 kJ
D)-19.5 kJ
E)-21.7 kJ
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74
Predict whether ΔS is positive or negative for the following process:
H2O(g)→ H2O(s)
A)negative
B)positive
C)ΔS doesn't change.
D)There is not enough information to determine.
H2O(g)→ H2O(s)
A)negative
B)positive
C)ΔS doesn't change.
D)There is not enough information to determine.
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75
For the reaction
What is DrSo?
A)-88.5 J/mol ∙ K
B)-176.7 J/mol ∙ K
C)219 J/mol ∙ K
D)176.7 J/mol ∙ K
E)-219.1 J/mol ∙ K
What is DrSo?
A)-88.5 J/mol ∙ K
B)-176.7 J/mol ∙ K
C)219 J/mol ∙ K
D)176.7 J/mol ∙ K
E)-219.1 J/mol ∙ K
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76
What is ΔrG° at 25 °C?
CaCO3(s)→ CaO(s)+ CO2(g)ΔrH° = 177.8 kJ ΔrS° = 160.7 J/K
A)1779 kJ
B)173.8 kJ
C)225.7 kJ
D)181.8 kJ
E)129.9 kJ
CaCO3(s)→ CaO(s)+ CO2(g)ΔrH° = 177.8 kJ ΔrS° = 160.7 J/K
A)1779 kJ
B)173.8 kJ
C)225.7 kJ
D)181.8 kJ
E)129.9 kJ
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77
Which of the listed reactions would couple with the following reaction to produce silver?
Ag2O(s)→ 2 Ag(s)+ 1/2 O(g)ΔrG° = 11.2 kJ/mol
A)Ag(s)+ 1/2 Br2 → AgBr(s)ΔrG° = 96.9 kJ/mol
B)C + 1/2 O2 → CO ΔrG° = -137.2 kJ/mol
C)N + 1/2 O2 → NO ΔrG° = 149.3 kJ/mol
D)N + O2 → NO2 ΔrG° = 51.3 kJ/mol
E)C + 2 S → CS2(l)ΔrG° = 65.3 kJ/mol
Ag2O(s)→ 2 Ag(s)+ 1/2 O(g)ΔrG° = 11.2 kJ/mol
A)Ag(s)+ 1/2 Br2 → AgBr(s)ΔrG° = 96.9 kJ/mol
B)C + 1/2 O2 → CO ΔrG° = -137.2 kJ/mol
C)N + 1/2 O2 → NO ΔrG° = 149.3 kJ/mol
D)N + O2 → NO2 ΔrG° = 51.3 kJ/mol
E)C + 2 S → CS2(l)ΔrG° = 65.3 kJ/mol
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78
Predict whether ΔS is positive or negative for the following process:
2 Cl2O7(g)→ 2 Cl2(g)+ 7 O2(g)
A)negative
B)positive
C)ΔS doesn't change.
D)There is not enough information to determine.
2 Cl2O7(g)→ 2 Cl2(g)+ 7 O2(g)
A)negative
B)positive
C)ΔS doesn't change.
D)There is not enough information to determine.
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79
What is ΔrG° at 25 °C?
N2O4(g)→ 2 NO2(g)ΔrH° = 58.03 kJ ΔrS° = 176.7 J/K
A)58.21 kJ
B)62.45 kJ
C)53.6 kJ
D)5.37 kJ
E)111 kJ
N2O4(g)→ 2 NO2(g)ΔrH° = 58.03 kJ ΔrS° = 176.7 J/K
A)58.21 kJ
B)62.45 kJ
C)53.6 kJ
D)5.37 kJ
E)111 kJ
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80
For the reaction,N2O4(g)→ 2 NO2(g)
S° (J/mol K)304.2 240.0
What is DrS°?
A)544.2 J/mol ∙ K
B)-64.2 J/mol ∙ K
C)175.8 J/mol ∙ K
D)-175.8 J/mol ∙ K
E)64.2 J/mol ∙ K
S° (J/mol K)304.2 240.0
What is DrS°?
A)544.2 J/mol ∙ K
B)-64.2 J/mol ∙ K
C)175.8 J/mol ∙ K
D)-175.8 J/mol ∙ K
E)64.2 J/mol ∙ K
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