Deck 17: Gibbs Energy and Thermodynamics

A)2NO(g)+ O₂(g)→ 2NO₂(g)
B)COCl₂(g)→ CO(g)+ Cl₂(g)
C)CH₃OH(l)→ CO(g)+ 2H₂(g)
D)NaClO₃(s)→ Na⁺(aq)+ ClO₃^-(aq)
E)H₂(g)+ Cl₂(g)→ 2HCl(g)

A)2NH₃(g)+ CO₂(g)→ NH₂CONH₂(aq)+ H₂O(l)
B)lithium fluoride forms from Li and F₂
C)2HBr(g)→ H₂(g)+ Br₂(l)
D)sodium chloride dissolves in pure water
E)Ag⁺(aq)+ Cl^-(aq)→ AgCl(s)

A)positive
B)negative
C)zero
D)It depends on the biological system.

A)This reaction will be spontaneous only at high temperatures.
B)This reaction will be spontaneous at all temperatures.
C)This reaction will be nonspontaneous at all temperatures.
D)This reaction will be nonspontaneous only at high temperatures.
E)This reaction will be spontaneous only at absolute zero (0 Kelvin).

A)This reaction will be spontaneous only at low temperatures.
B)This reaction will be spontaneous at all temperatures.
C)This reaction will be nonspontaneous at all temperatures.
D)This reaction will be nonspontaneous at low temperatures.
E)This reaction will be spontaneous only at absolute zero (0 Kelvin).

A)This reaction will be spontaneous only at high temperatures.
B)This reaction will be spontaneous at all temperatures.
C)This reaction will be nonspontaneous at all temperatures.
D)This reaction will be nonspontaneous only at high temperatures.
E)This reaction will be spontaneous only at absolute zero (0 Kelvin).

A)This reaction will be spontaneous only at low temperatures.
B)This reaction will be spontaneous at all temperatures.
C)This reaction will be nonspontaneous at all temperatures.
D)This reaction will be nonspontaneous only at low temperatures.
E)This reaction will be spontaneous only at absolute zero (0 Kelvin).

A)ΔS_surr = +223 J K^-1 mol^-1,reaction is spontaneous
B)ΔS_surr = -223J K^-1 mol^-1,reaction is not spontaneous
C)ΔS_surr = -66.4 J K^-1 mol^-1,reaction is spontaneous
D)ΔS_surr = +66.4 kJ K^-1 mol^-1,reaction is not spontaneous
E)ΔS_surr = -66.4 J K^-1 mol^-1,reaction is not spontaneous

A)water freezing
B)water boiling
C)ice melting
D)dry ice subliming
E)water evaporating

A)Δ_rG is proportional to -ΔS_univ.
B)Δ_rG > 0 represents a spontaneous process.
C)Δ_rG > 0 represents an increase in kinetic energy.
D)Δ_rG < 0 represents a nonspontaneous process.
E)Δ_rG is not a function of temperature.

A)water freezing
B)ice melting
C)water evaporating
D)salt dissolving in water
E)dry ice subliming

A)This reaction will be spontaneous only at high temperatures.
B)This reaction will be spontaneous at all temperatures.
C)This reaction will be nonspontaneous at all temperatures.
D)This reaction will be nonspontaneous only at high temperatures.
E)This reaction will be spontaneous only at very low temperatures.

A)a negative Δ_rH and a negative Δ_rS
B)a positive Δ_rH and a negative Δ_rS
C)a negative Δ_rH and a positive Δ_rS
D)a positive Δ_rH and a positive Δ_rS
E)Δ_rH = 0 and a positive Δ_rS

A)water freezes
B)isopropyl alcohol vapour condenses
C)methanol (g,at 555 K)→ methanol (g,at 400 K)
D)carbon dioxide(g)→ carbon dioxide(s)
E)H₂(g)+ F₂(g)→ 2HF(g)

A)ΔS_surr = +12.67 kJ K^-1 mol^-1,reaction is not spontaneous
B)ΔS_surr = -12.67 kJ K^-1 mol^-1,reaction is spontaneous
C)ΔS_surr = +50.4 kJ K^-1 mol^-1,reaction is not spontaneous
D)ΔS_surr = +3.18 kJ K^-1 mol^-1,reaction is spontaneous
E)ΔS_surr = -3.18 kJ K^-1 mol^-1,reaction is not spontaneous

A)?S_surr = +114 kJ K^-1 mol^-1,reaction is spontaneous
B)?S_surr = +114 kJ K^-1 mol^-1,reaction is not spontaneous
C)?S_surr = +321 J K^-1 mol^-1,reaction is spontaneous
D)?S_surr= -321 J K^-1 mol^-1,reaction is not spontaneous
E)?S_surr = +321 J K^-1 mol^-1,reaction is not spontaneous

A)A spontaneous reaction is a reaction that takes place without any outside intervention.
B)Thermodynamics is a study of reaction rates.
C)A nonspontaneous reaction is a reaction that does not take place under any conditions.
D)Chemical kinetics is a discipline that studies the spontaneity of chemical reactions.
E)Every spontaneous reaction is a very rapid reaction.

A)This reaction will be spontaneous only at high temperatures.
B)This reaction will be spontaneous at all temperatures.
C)This reaction will be nonspontaneous at all temperatures.
D)This reaction will be nonspontaneous only at high temperatures.
E)This reaction will be spontaneous only at absolute zero (0 Kelvin).

A)Entropy is not a state function.
B)Endothermic processes decrease the entropy of the surroundings,at constant T and P.
C)Endothermic processes are never spontaneous.
D)Exothermic processes are always spontaneous.
E)Entropy of the universe is a constant value.

A)NO < CO < SO
B)SO < CO < NO
C)SO < NO < CO
D)CO < SO < NO
E)CO < NO < SO

A)39.2 K
B)151 K
C)475 K
D)4.75 × 10³ K
E)298.17 K

A)NaCl(s)> NaCl(aq)> Na₃PO₄(aq)
B)NaCl(aq)> NaCl(s)> Na₃PO₄(aq)
C)Na₃PO₄(aq)> NaCl(aq)> NaCl(s)
D)NaCl(s)> Na₃PO₄(aq)> NaCl(aq)
E)NaCl(aq)> Na₃PO₄(aq)> NaCl(s)

A)-48 kJ $\mathrm { mol } ^ { - 1 }$
B)-68 kJ $\mathrm { mol } ^ { - 1 }$
C)+39 kJ $\mathrm { mol } ^ { - 1 }$
D)-157 kJ $\mathrm { mol } ^ { - 1 }$
E)+142 kJ $\mathrm { mol } ^ { - 1 }$

A)-48 kJ $\mathrm { mol } ^ { - 1 }$
B)-68 kJ $\mathrm { mol } ^ { - 1 }$
C)+ 39 kJ $\mathrm { mol } ^ { - 1 }$
D)-157 kJ $\mathrm { mol } ^ { - 1 }$
E)+142 kJ $\mathrm { mol } ^ { - 1 }$

A)CO₂ < C₃H₈ < SO
B)C₃H₈ < CO₂ < SO
C)SO < CO₂ < C₃H₈
D)C₃H₈ < SO < CO₂
E)CO₂ < SO < C₃H₈

A)6.762 × 10³ K
B)158.7 K
C)298 K
D)67.62 K
E)1.587 × 10³ K

A)-48 kJ $\mathrm { mol } ^ { - 1 }$
B)-68 kJ $\mathrm { mol } ^ { - 1 }$
C)+39 kJ $\mathrm { mol } ^ { - 1 }$
D)+157 kJ $\mathrm { mol } ^ { - 1 }$
E)+142 kJ $\mathrm { mol } ^ { - 1 }$

A)He < Kr < Ne < Ar < Xe
B)Xe < Kr < Ar < Ne < He
C)Ar < He < Ar < Ne < Kr
D)Ar < Ne < Xe < Kr < He
E)He < Ne < Ar < Kr < Xe

A)Entropy is an extensive property.
B)Entropy is not temperature dependent.
C)Exothermic processes decrease the entropy of the surroundings.
D)ΔS_univ is always greater than zero for a nonspontaneous process.
E)Just like enthalpy,entropy has no absolute zero value.

A)H₂O(g)< H₂O(l)< H₂O(s)
B)H₂O(s)< H₂O(l)< H₂O(g)
C)H₂O(g)< H₂O(s)< H₂O(l)
D)H₂O(l)< H₂O(s)< H₂O(g)
E)H₂O(s)< H₂O(g)< H₂O(l)

A)Ar > N₂H₄ > HCl
B)Ar > HCl > N₂H₄
C)N₂H₄ > Ar > HCl
D)N₂H₄ > HCl > Ar
E)HCl > N₂H₄ > Ar

A)The entropy of a gas is lower than the entropy of a liquid.
B)Entropy generally decreases with increasing molecular complexity.
C)Free atoms have lower entropy than molecules.
D)Entropy decreases with dissolution.
E)For noble gases,entropy decreases with increase in atomic size.

A)-48 kJ $\mathrm { mol } ^ { - 1 }$
B)-68 kJ $\mathrm { mol } ^ { - 1 }$
C)+39 kJ $\mathrm { mol } ^ { - 1 }$
D)-157 kJ $\mathrm { mol } ^ { - 1 }$
E)+142 kJ $\mathrm { mol } ^ { - 1 }$

A)H₂ > Cl₂ > F₂
B)Cl₂ > H₂ > F₂
C)F₂ > Cl₂ > H₂
D)H₂ > F₂ > Cl₂
E)Cl₂ > F₂ > H₂

A)632 K
B)298 K
C)191 K
D)6.32 × 10³ K
E)0 K

A)a negative Δ_rH and a negative Δ_rS
B)a positive Δ_rH and a negative Δ_rS
C)a negative Δ_rH and a positive Δ_rS
D)a positive Δ_rH and a positive Δ_rS
E)Δ_rH = 0 and a positive Δ_rS

A)a negative Δ_rH and a negative Δ_rS
B)a positive Δ_rH and a negative Δ_rS
C)a negative Δ_rH and a positive Δ_rS
D)a positive Δ_rH and a positive Δ_rS
E)Δ_rH = 0 and a positive Δ_rS

A)a negative Δ_rH and a negative Δ_rS
B)a positive Δ_rH and a negative Δ_rS
C)a negative Δ_rH and a positive Δ_rS
D)a positive Δ_rH and a positive Δ_rS
E)Δ_rH = 0 and a positive Δ_rS

A)N₂O₄ > NO₂ > NO
B)NO > NO₂ > N₂O₄
C)N₂O₄ > NO > NO₂
D)NO > N₂O₄ > NO₂
E)NO₂ > NO > N₂O₄

A)NaCl(s)
B)N₂(g)
C)NO(g)
D)O₃(g)
E)Cl_2(g)

A)-23.0 kJ mol^-1
B)69.0 kJ mol^-1
C)-69.0 kJ mol^-1
D)-7.67 kJ mol^-1
E)23.0 kJ mol^-1

A)-23.0 kJ mol^-1
B)69.0 kJ mol^-1
C)-69.0 kJ mol^-1
D)-7.67 kJ mol^-1
E)23.0 kJ mol^-1

A)I₂(s)
B)F₂(g)
C)Br₂(l)
D)N₂(g)
E)Cl₂(g)

A)+243 kJ mol^-1
B)-72.9 kJ mol^-1
C)+84.9 kJ mol^-1
D)-92.5 kJ mol^-1
E)-188 kJ mol^-1

A)-138.5 J K^-1 mol^-1
B)-1052.6 J K^-1 mol^-1
C)+171.3 J K^-1 mol^-1
D)-583.6 J K^-1 mol^-1
E)+2334.6 J K^-1 mol^-1

A)Allotropes are different forms of the same element,but they have identical standard molar enthalpies.
B)Allotropes are different forms of the same element and have different standard molar enthalpies.
C)Allotropes are composed of different isotopes of the same element and have different standard molar enthalpies.
D)Allotropes are composed of different isotopes of the same element and identical standard molar enthalpies.
E)Allotropes are different elements with the same structure and have different standard molar enthalpies.

A)reversible reaction
B)forward reaction
C)reverse reaction
D)equilibrium reaction
E)irreversible reaction

A)-23.0 kJ mol^-1
B)69.0 kJ mol^-1
C)-69.0 kJ mol^-1
D)-7.67 kJ mol^-1
E)23.0 kJ mol^-1

A)reversible reaction
B)forward reaction
C)reverse reaction
D)equilibrium reaction
E)irreversible reaction

A)H₂(g)
B)F₂(g)
C)O₂(g)
D)N₂(g)
E)Cl₂(g)

A)+303.3 J K^-1 mol^-1
B)+560.8 J K^-1 mol^-1
C)-102.4 J K^-1 mol^-1
D)-233.1 J K^-1mol^-1
E)229.2 J K^-1 mol^-1

A)+5.8 kJ mol^-1
B)+12.9 kJ mol^-1
C)-101 kJ mol^-1
D)+2.4 kJ mol^-1
E)-4.2 kJ mol^-1

A)-625 kJ mol^-1
B)-181 kJ mol^-1
C)+17 kJ mol^-1
D)+321 kJ mol^-1
E)-110 kJ mol^-1

A)It is a maximum amount of energy available to do work.
B)It is energy that is lost to the surroundings.
C)It is energy that is used to break chemical bonds.
D)It is energy that is converted to heat.
E)It is the total energy of a process.

A)+112.3 J K^-1 mol^-1
B)+550.9 J K^-1 mol^-1
C)-112.3 J K^-1 mol^-1
D)+337.1 J K^-1 mol^-1
E)-550.9 J K^-1 mol^-1

A)+287.4 J K^-1 mol^-1
B)-401.2 J K^-1 mol^-1
C)+160.0 J K^-1 mol^-1
D)-336.6 J K^-1 mol^-1
E)+178.8 J K^-1 mol^-1

A)+133.7 J K^-1 mol^-1
B)-59.1 J K^-1 mol^-1
C)+118.2 J K^-1 mol^-1
D)-202.3 J K^-1 mol^-1
E)+178.9 J K^-1 mol^-1

A)NaCl(s)
B)N₂(g)
C)NO(g)
D)O₃(g)
E)Cl₂(g)

A)NaCl(s)
B)N₂(g)
C)NO(g)
D)O₃(g)
E)HCl(g)

A)+191.0 kJ mol^-1
B)-5.8 kJ mol^-1
C)+1.6 kJ mol^-1
D)-6.4 kJ mol^-1
E)+89.5 kJ mol^-1

A)+112.4 kJ mol^-1
B)-495.3 kJ mol^-1
C)-528.7 kJ mol^-1
D)+66.8 kJ mol^-1
E)-990.6 kJ mol^-1

A)+341 kJ
B)+17.8 kJ
C)+332 kJ
D)-47.4 kJ
E)-109 kJ

A)-472.4 kJ mol^-1
B)-210.3 kJ mol^-1
C)+455.1 kJ mol^-1
D)+262.1 kJ mol^-1
E)+524.1 kJ mol^-1

A)-60.0 kJ mol^-1
B)+651.6 kJ mol^-1
C)-265.8 kJ mol^-1
D)+137.2 kJ mol^-1
E)+523.0 kJ mol^-1

A)-607.0 kJ mol^-1
B)+112 .0 kJ mol^-1
C)-89.3 kJ mol^-1
D)+131.5 kJ mol^-1
E)+228.1 kJ mol^-1

A)+207 kJ mol^-1
B)-154.4 kJ mol^-1
C)-26.5 kJ mol^-1
D)-164 kJ mol^-1
E)+60.7 kJ mol^-1

A)+15.9 kJ mol^-1
B)-90.5 kJ mol^-1
C)+51.4 kJ mol^-1
D)-86.2 kJ mol^-1
E)-30.4 kJ mol^-1

A)+4.90 × 10³ kJ mol^-1
B)+3.90 × 10³ kJ mol^-1
C)-2.04 × 10³ kJ mol^-1
D)-3.15 × 10³ kJ mol^-1
E)-3.30 × 10³ kJ mol^-1

A)-162.5 kJ mol^-1
B)+51.0 kJ mol^-1
C)-54.5 kJ mol^-1
D)+171.1 kJ mol^-1
E)-87.6 kJ mol^-1

A)+753.5 kJ mol^-1
B)+277.0 kJ mol^-1
C)-676.0 kJ mol^-1
D)-1152.5 kJ mol^-1
E)-225.7 kJ mol^-1

A)-1.4 kJ mol^-1
B)+11 kJ mol^-1
C)-5.7 kJ mol^-1
D)+4.3 kJ mol^-1
E)-4.8 kJ mol^-1

A)-3.2977 × 10³ kJ mol^-1
B)-312.9 kJ mol^-1
C)+2.845 × 10³ kJ mol^-1
D)+110.7 kJ mol^-1
E)-954.7 kJ mol^-1

A)-151 kJ mol^-1
B)-85.5 kJ mol^-1
C)+50.8 kJ mol^-1
D)+222 kJ mol^-1
E)-186 kJ mol^-1

A)-0.40 kJ mol^-1
B)+9.0 kJ mol^-1
C)-0.47 kJ mol^-1
D)+4.3 kJ mol^-1
E)+16 kJ mol^-1

A)+57.7 kJ mol^-1
B)-30.8 kJ mol^-1
C)+34.6 kJ mol^-1
D)-41.5 kJ mol^-1
E)+17.3 kJ mol^-1

A)+31.0 kJ mol^-1
B)+2.99 kJ mol^-1
C)-30.7 kJ mol^-1
D)+17.5 kJ mol^-1
E)-25.0 kJ mol^-1

A)-990.3 kJ mol^-1
B)+108.2 kJ mol^-1
C)-466.1 kJ mol^-1
D)+676.2 kJ mol^-1
E)-147.1 kJ mol^-1

A)-49.3 kJ mol^-1
B)-8.32 kJ mol^-1
C)+122.6 kJ mol^-1
D)+39.7 kJ mol^-1
E)+43.3 kJ mol^-1

A)-7.1 kJ mol^-1
B)+16 kJ mol^-1
C)-11 kJ mol^-1
D)+4.3 kJ mol^-1
E)+5.7 kJ mol^-1