Question 1

Arrange the following substances in the order of increasing entropy at 25°C. HF(g), NaF(s), SiF₄(g), SiH₄(g), Al(s)
Lowest $\to$ highest

A)SiF₄(g)< SiH₄(g)< NaF(s)< HF(g)< Al(s)
B)HF(g)< Al(s)< NaF(s)< SiF₄(g)< SiH₄(g)
C)Al(s)< NaF(s)< HF(g)< SiH₄(g)< SiF₄(g)
D)Al(s)< HF(g)< NaF(s)< SiF₄(g)< SiH₄(g)
E)NaF(s)< Al(s)< HF(g)< SiF₄(g)< SiH₄(g)

Accepted Answer

Al(s)< NaF(s)< HF(g)< SiH₄(g)< SiF₄(g)

Question 2

Which one of the following reactions would you expect to have highest $\Delta$S°? A)CH₄(g)+ 2O₂(g)$\to$ CO₂(g)+ 2H₂O(g) B)C₂H₂(g)+ ⁵/₂O₂(g)$\to$2CO₂(g)+ H₂O(g) C)C₂H₄(g)+ 3O₂(g)$\to$ 2CO₂(g)+ 2H₂O(g) D)C₂H₆(g)+ ⁷/₂O₂(g)$\to$ 2CO₂(g)+ 3H₂O(g)

Accepted Answer

C₂H₆(g)+ ⁷/₂O₂(g)$\to$ 2CO₂(g)+ 3H₂O(g)

Question 3

Without reference to a table, arrange these reactions according to increasing $\Delta$ S.
1)CH₄(g)+ H₂O(g) $\to$ CO(g)+ 3H₂(g)
2)C(s)+ O₂(g) $\to$ CO₂(g)
3)H₂O₂(l) $\to$ H₂O(l)+ ¹/₂O₂(g)

A)1 < 3 < 2
B)2 < 3 < 1
C)2 < 1 < 3
D)3 < 2 < 1
E)3 < 1 < 2

Accepted Answer

2 < 3 < 1&#10;

Question 4

Which of these species would you expect to have the lowest standard entropy (S°)? A)Br₂(l) B)Cl₂(g) C)F₂(g) D)H₂(g) E)I₂(s)

Accepted Answer

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Question 5

Calculate $\Delta$S° at 25°C for the reduction of PbO(s), 2PbO(s)+ C(s) $\to$ 2Pb(s)+ CO₂(g)given these absolute entropies: A)+198.8 J/K·mol B)+488.0 J/K·mol C)+353.6 J/K·mol D)-203.3 J/K·mol E)+203.3 J/K·mol

Accepted Answer

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Question 6

Determine $\Delta$S° for the reaction SO₃(g)+ H₂O(l)$\to$0 H₂SO₄(l). A)169.2 J/K·mol B)1343.2 J/K·mol C)-169.2 J/K·mol D)-29.4 J/K·mol E)29.4 J/K·mol

Accepted Answer

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Question 7

Sulfur can be separated from lead in the mineral galena, PbS(s), by "roasting" the ore in the presence of oxygen as shown in the following reaction: 2PbS(s)+ 3O₂(g)$\to$ 2PbO(s)+ 2SO₂(g) Calculate $\Delta$S° for this reaction using the thermodynamic data provided below. A)-410 J/K·mol B)-161.5 J/K·mol C)-47.7 J/K·mol D)21.8 J/K·mol E)43.5 J/K·mol

Accepted Answer

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Question 8

Which of these species has the highest entropy (S°)at 25°C? A)CH₃OH(l) B)CO(g) C)MgCO₃(s) D)H₂O(l) E)Ni(s)

Accepted Answer

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Question 9

HI has a normal boiling point of -35.4°C, and its $\Delta$H_vap is 21.16 kJ/mol. Calculate the molar entropy of vaporization ($\Delta$S_vap). A)598 J/K·mol B)68.6 J/K·mol C)75.2 J/K·mol D)0.068 J/K·mol E)89.0 J/K·mol

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Question 10

Which response includes all the following processes that are accompanied by an increase in entropy?
1)2SO₂(g)+ O₂(g) $\to$ SO₃(g)
2)H₂O(l) $\to$ H₂O(s)
3)Br₂(l) $\to$ Br₂(g)
4)H₂O₂(l) $\to$ H₂O(l)+ ¹/₂O₂(g)

A)1, 2, 3, 4
B)1, 2
C)2, 3, 4
D)3, 4
E)1, 4

Accepted Answer

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Question 11

Which of these species would you expect to have the lowest standard entropy (S°)? A)CH₄(g) B)HF(g) C)NH₃(g) D)H₂O(g)

Accepted Answer

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Question 12

Which one of the following reactions would you expect to have the lowest $\Delta$S°? A)CH₄(g)+ 2O₂(g)$\to$ CO₂(g)+ 2H₂O(g) B)C₂H₂(g)+ ⁵/₂O₂(g)$\to$ 2CO₂(g)+ H₂O(g) C)C₂H₄(g)+ O₂(g)$\to$2CO₂(g)+ 2H₂O(g) D)C₂H₆(g)+ ⁷/₂O₂(g)$\to$ 2CO₂(g)+ 3H₂O(g)

Accepted Answer

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Question 13

Arrange these reactions according to increasing $\Delta$ S.
1)H₂O(g) $\to$ H₂O(l)
2)2NO(g) $\to$ N₂(g)+ O₂(g)
3)MgCO₃(s) $\to$ MgO(s)+ CO₂(g)

A)1 < 2 < 3
B)2 < 3 < 1
C)3 < 2 < 1
D)2 < 1 < 3
E)1 < 3 < 2

Accepted Answer

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Question 14

Which of these species has the highest entropy (S°)at 25°C? A)CO(g) B)CH₄(g) C)NaCl(s) D)H₂O(l) E)Fe(s)

Accepted Answer

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Question 15

Which of these species would you expect to have the highest standard entropy (S°)? A)CH₄(g) B)C₂H₂(g) C)C₂H₄(g) D)C₂H₆(g) E)C₃H₈(g)

Accepted Answer

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Question 16

Arrange these compounds in order of increasing standard molar entropy at 25°C: C₃H₈(g), C₂H₄(g), ZnS(s), and H₂O(l). A)ZnS(s)< H₂O(l)< C₃H₈(g)< C₂H₄(g) B)C₂H₄(g)< H₂O(l)< C₃H₈(g)< NaCl(s) C)ZnS(s)< C₃H₈(g)< C₂H₄(g)< H₂O(l) D)C₃H₈(g)< C₂H₄(g)< H₂O(l)< ZnS(s) E)ZnS(s)< H₂O(l)< C₂H₄(g)< C₃H₈(g)

Accepted Answer

The answer of Arrange these compounds in order of increasing...

Question 17

Which response includes all of the following processes that are accompanied by an increase in entropy?
1)I₂(s) $\to$ I₂(g)
2)2I(g) $\to$ I₂(g)
3)2NH₃(g) $\to$ N₂(g)+ 3H₂(g)
4)Mg²⁺(aq)+ 2OH^-(aq) $\to$ Mg(OH)₂(s)

A)1, 2
B)1, 3
C)3, 4
D)3
E)2, 4

Accepted Answer

The answer of Which response includes all of the following...

Question 18

Aluminum forms a layer of aluminum oxide when exposed to air which protects the bulk metal from further corrosion. 4Al(s)+ 3O₂(g) $\to$ 2Al₂O₃(s)
Calculate $\Delta$ G° for this reaction, given that $\Delta$ G°_f of aluminum oxide is -1576.4 kJ/mol.

A)-3152.8 kJ/mol
B)-1576.4 kJ/mol
C)-788.2 kJ/mol
D)1576.4 kJ/mol
E)3152.8 kJ/mol

Accepted Answer

The answer of Aluminum forms a layer of aluminum oxide...

Question 19

Calculate $\Delta$S° for the reaction SO₂(s)+ NO₂(g)$\to$SO₃(g)+ NO(g). A)53.6 J/K·mol B)-53.6 J/K·mol C)-22.2 J/K·mol D)474.8 J/K·mol E)-474.8 J/K·mol

Accepted Answer

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Question 20

The entropy change on vaporization ($\Delta$S_vap)of a compound or element is A)always negative. B)always positive. C)sometimes is positive and sometimes is negative.

Accepted Answer

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Question 21

Calculate K_p at 298 K for the reaction SO₂(g)+ NO₂(g)$\to$ SO₃(g)+ NO(g). A)6.99 $\times$ 10^-7 B)5.71 $\times$ 10^-8 C)14.2 D)475 E)1.42 $\times$ 10⁶

Accepted Answer

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Question 22

Calculate $\Delta$G° for the reaction 3NO₂(g)+ H₂O(l)$\to$ 2HNO₃(l)+ NO(g). A)8.7 kJ/mol B)192 kJ/mol C)-414 kJ/mol D)-192 kJ/mol E)-155 kJ/mol

Accepted Answer

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Question 23

Aluminum forms a layer of aluminum oxide when exposed to air which protects the bulk metal from further corrosion. 4Al(s)+ 3O₂(g) $\to$ 2Al₂O₃(s)
Calculate $\Delta$ G° for this reaction, given that $\Delta$ G°_f of aluminum oxide is -1576.4 kJ/mol.

A)-3152.8 kJ/mol
B)-1576.4 kJ/mol
C)-788.2 kJ/mol
D)1576.4 kJ/mol
E)3152.8 kJ/mol

Accepted Answer

The answer of Aluminum forms a layer of aluminum oxide...

Question 24

Sodium carbonate can be made by heating sodium bicarbonate: 2NaHCO₃(s) $\to$ Na₂CO₃(s)+ CO₂(g)+ H₂O(g)
Given that $\Delta$ H° = 128.9 kJ/mol and $\Delta$ G° = 33.1 kJ/mol at 25°C, above what minimum temperature will the reaction become spontaneous under standard state conditions?

A)0.4 K
B)3.9 K
C)321 K
D)401 K
E)525 K

Accepted Answer

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Question 25

The normal freezing point of ammonia is -78°C. Predict the signs of $\Delta$H, $\Delta$S, and $\Delta$G for ammonia when it freezes at -80°C and 1 atm: NH₃(l)$\to$ NH₃(s)

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Question 26

Determine the equilibrium constant K_p at 25°C for the reaction N₂(g)+ 3H₂(g) 2NH₃(g) [$\Delta$G°_f (NH₃(g))= -16.6 kJ/mol]. A)1.52 $\times$ 10^-6 B)6.60 $\times$ 10⁵ C)8.28 $\times$ 10^-2 D)2.60 E)13.4

Accepted Answer

The answer of Determine the equilibrium constant K_p at 25°C...

Question 27

Determine the equilibrium constant (K_p)at 25°C for the reaction A)2.9 $\times$ 10^-60 B)1.0 $\times$ 10^-4 C)1.2 D)1.0 $\times$ 10⁵ E)3.4 $\times$ 10⁵⁹

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Question 28

The element oxygen was prepared by Joseph Priestley in 1774 by heating mercury(II)oxide: HgO(s)\9\to\) Hg(l)+ ¹/₂O₂(g), $\Delta$ H° = 90.84 kJ/mol.
Estimate the temperature at which this reaction will become spontaneous under standard state conditions.
S°(Hg)= 76.02 J/K·mol
S°(O₂)= 205.0 J/K·mol
S°(HgO)= 70.29 J/K·mol

A)108 K
B)430 K
C)620 K
D)775 K
E)840 K

Accepted Answer

The answer of The element oxygen was prepared by Joseph...

Question 29

Nitrosyl chloride (NOCl)decomposes at elevated temperatures according to the equation 2NOCl(g) 2NO(g)+ Cl₂(g). Calculate K_p for this reaction at 227°C.($\Delta$H° = 81.2 kJ/mol, $\Delta$S° = 128 J/K·mol) A)1.59 $\times$ 10^-2 B)2.10 $\times$ 10^-7 C)62.8 D)4.90 $\times$ 10⁶ E)3.20 $\times$ 10⁹

Accepted Answer

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Question 30

At 1500°C the equilibrium constant for the reaction CO(g)+ 2H₂(g) CH₃OH(g)has the value K_p = 1.4 $\times$10^-7. Calculate $\Delta$G° for this reaction at 1500°C. A)105 kJ/mol B)1.07 kJ/mol C)-233 kJ/mol D)-105 kJ/mol E)233 kJ/mol

Accepted Answer

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Question 31

The equilibrium constant at 427°C for the reaction N₂(g)+ 3H₂(g) 2NH₃(g)is K_p = 9.4 $\times$ 10^-5. Calculate the value of $\Delta$G° for the reaction under these conditions. A)-33 kJ/mol B)-54 kJ/mol C)54 kJ/mol D)33 kJ/mol E)1.3 J/mol

Accepted Answer

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Question 32

For the reaction H₂(g)+ S(s)$ \to$ H₂S(g), $\Delta$H° = -20.2 kJ/mol and $\Delta$S° = +43.1 J/K·mol.Which of these statements is true? A)The reaction is only spontaneous at low temperatures. B)The reaction is spontaneous at all temperatures. C)($\Delta$G° becomes less favorable as temperature increases.) D)The reaction is spontaneous only at high temperatures. E)The reaction is at equilibrium at 25°C under standard conditions.

Accepted Answer

The answer of For the reaction H₂(g)+ S(s)$ \to$ H₂S(g), $\Delta$H°...

Question 33

A negative sign for $\Delta$G indicates that, at constant T and P,&#10;A)the reaction is exothermic.&#10;B)the reaction is endothermic.&#10;C)the reaction is fast.&#10;D)the reaction is spontaneous.&#10;E)($\Delta$S must be > 0.)

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Question 34

Calculate the equilibrium constant for the decomposition of water 2H₂O(l) 2H₂(g)+ O₂(g) At 25°C, given that $\Delta$G°_f(H₂O(l))= -237.2 kJ/mol. A)0.83 B)6.3 $\times$ 10^-84 C)2.5 $\times$ 10^-42 D)1.6 $\times$ 10⁸³ E)4.7 $\times$ 10⁵

Accepted Answer

The answer of Calculate the equilibrium constant for the decomposition...

Question 35

For the reaction 2C(graphite)+ H₂(g)$\to$ C₂H₂(g), $\Delta$G°= +209.2 kJ/mol at 25°C. If P(H₂)= 100.atm, and P(C₂H₂)= 0.10 atm, calculate $\Delta$G for this reaction. A)+207.8 kJ/mol B)+226.3 kJ/mol C)+192.1 kJ/mol D)+17.3 kJ/mol E)-16.9 kJ/mol

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Question 36

Hydrogen peroxide (H₂O₂)decomposes according to the equation H₂O₂(l) $\to\0 H2O(l)+ 1/2O2(g).Calculate Kp for this reaction at 25°C. (\(\Delta$ H° = -98.2 kJ/mol, $\Delta$ S° = 70.1 J/K·mol)

A)1.3

\times

10^-21
B)20.9
C)3.46

\times

10¹⁷.
D)7.5

\times

10²⁰
E)8.6

\times

10⁴

Accepted Answer

The answer of Hydrogen peroxide (H₂O₂)decomposes according to the equation...

Question 37

The equilibrium constant for the reaction AgBr(s) Ag⁺(aq)+ Br^-(aq)is the solubility product constant, K_sp = 7.7 $\times$ 10^-13 at 25°C. Calculate $\Delta$G for the reaction when [Ag⁺] = 1.0 $\times$ 10^-2 M and [Br^-] = 1.0 $\times$ 10^-3 M. Is the reaction spontaneous or nonspontaneous at these concentrations? A)($\Delta$G = 69.1 kJ/mol, nonspontaneous) B)($\Delta$G = -69.1 kJ/mol, spontaneous) C)($\Delta$G = 97.5 kJ/mol, spontaneous) D)($\Delta$G = 40.6 kJ/mol, nonspontaneous) E)($\Delta$G = -97.5 kJ/mol, nonspontaneous)

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Question 38

Ozone (O₃)in the atmosphere can reaction with nitric oxide (NO): O₃(g)+ NO(g) $\to$ NO₂(g)+ O₂(g).
Calculate the $\Delta$ G° for this reaction at 25°C. ( $\Delta$ H° = -199 kJ/mol, $\Delta$ S° = -4.1 J/K·mol)

A)1020 kJ/mol
B)-1.22

\times

10³ kJ/mol
C)2.00

\times

10³ kJ/mol
D)-1.42

\times

10³ kJ/mol
E)-198 kJ/mol

Accepted Answer

The answer of Ozone (O₃)in the atmosphere can reaction with...

Question 39

A spontaneous endothermic reaction always&#10;A)causes the surroundings to get colder.&#10;B)bursts into flame.&#10;C)requires a spark to initiate it.&#10;D)releases heat to the surroundings.

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Question 40

K_w for the auto-ionization of water, H₂O(l)$\to$ H⁺(aq)+ OH^- (aq), is 1.0 $\times$ 10^-14. What are the signs (+/-)of $\Delta$S° and $\Delta$H° for the reaction at 25°C? A)($\Delta$S° = (+)and $\Delta$H° = (+)) B)($\Delta$S° = (+)and $\Delta$H° = (-)) C)($\Delta$S° = (-)and $\Delta$H° = (+)) D)($\Delta$S° = (-)and $\Delta$H° = (-))

Accepted Answer

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Question 41

For the reaction CuS(s)+ H₂(g) H₂S(g)+ Cu(s), $\Delta$G°_f (CuS)= -53.6 kJ/mol $\Delta$G°_f (H₂S)= -33.6 kJ/mol $\Delta$H°_f (CuS)= -53.1 kJ/mol $\Delta$H°_f (H₂S)= - 20.6 kJ/mol Calculate the value of the equilibrium constant (K_p)for this reaction at 298 K.

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Question 42

The reaction rates of many spontaneous reactions are actually very slow. Which of these statements is the best explanation for this observation? A)K_p for the reaction is less than one. B)The activation energy of the reaction is large. C)($\Delta$G° for the reaction is positive.) D)Such reactions are endothermic. E)The entropy change is negative.

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Question 43

Using the thermodynamic data provided below, calculate the standard change in entropy when one mole of sodium sulfate is dissolved in water?   Will the solubility of sodium nitrate increase or decrease if the temperature of the system is increased?

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Question 44

Find the temperature at which K_p = 4.00 for the reaction N₂O₄(g) 2NO₂(g).[Given: at 25°C, for NO₂(g), $\Delta$H°_f = 33.85 kJ/mol, S° = 240.46 J/mol·K; for N₂O₄(g), $\Delta$H°_f = 9.66 kJ/mol, S° = 304.3 J/mol·K; assume that$\Delta$H° and $\Delta$S° are independent of temperature.] A)197 °C B)56 °C C)36 °C D)79 °C E)476°C

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Question 45

In the gas phase, formic acid forms a dimmer, 2HCOOH(g) (HCOOH)₂(g). For this reaction, $\Delta$H° = -60.1 kJ/mol and $\Delta$G° = -13.9 kJ/mol at 25°C. Find the equilibrium constant (K_p)for this reaction at 75 °C. A)8960 B)273 C)0.120 D)8.33 E)1.12 $\times$ 10^-4

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Question 46

Which species will have the greatest absolute entropy at 25°C? A)Ne(g) B)C₂H₂(g) C)H₂O(l) D)C₂H₅OH(l) E)C₄H₁₀(g)

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The answer of Which species will have the greatest absolute...

Question 47

The solubility product constant at 25°C for AgI(s)in water has the value 8.3 $\times$ 10^-17.Calculate $\Delta$G_rxn at 25°C for the process AgI(s) Ag⁺(aq)+ I^-(aq)where [Ag⁺] = 9.1 $\times$ 10^-9 and [I^-] = 9.1 $\times$ 10^-9. A)+4.4 kJ/mol B)+91.7 kJ/mol C)0.0 kJ/mol D)-91.7 kJ/mol E)-4.4 kJ/mol

Accepted Answer

The answer of The solubility product constant at 25&#176;C for...

Question 48

Which species will have the lowest absolute entropy at 25°C? A)C₂H₅OH(l) B)C₂H₂(g) C)C₃H₈(g) D)C₃H₇OH(l) E)C₂H₆(g)

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The answer of Which species will have the lowest absolute...

Question 49

A sample of solid naphthalene is introduced into an evacuated flask. Use the data below to calculate the equilibrium vapor pressure of naphthalene (C₁₀H₈)in the flask at 35°C. A)890.mmHg B)0.21 mmHg C)696 mmHg D)0.086 mmHg E)833 mmHg

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The answer of A sample of solid naphthalene is introduced...

Question 50

Find the temperature at which K_p = 42.0 for the reaction H₂(g)+ I₂(g) 2HI(g).[Given: at 25°C, for H₂(g), $\Delta$H°_f = 0, S° = 131.0 J/mol·K; for I₂(g), $\Delta$H°_f = 62.26 kJ/mol, S° = 260.6 J/mol·K; for HI(g), $\Delta$H°_f = 25.9 kJ/mol, S° = 206.3 J/mol·K; assume that $\Delta$H° and $\Delta$S° are independent of temperature.] A)1040 K B)168 K C)539 K D)1400 K E)34,200 K

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Question 51

For the reaction HCONH₂(g) NH₃(g)+ CO(g), K_c = 4.84 at 400 K. If $\Delta$H° for this reaction is 29 kJ/mol, find K_c at 500 K. A)5.8 B)0.17 C)27 D)0.88 E)10.3

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Question 52

For the reaction CuS(s)+ H₂(g) H₂S(g)+ Cu(s), $\Delta$G°_f (CuS)= -53.6 kJ/mol $\Delta$G°_f (H₂S)= -33.6 kJ/mol $\Delta$H°_f (CuS)= -53.1 kJ/mol $\Delta$H°_f (H₂S)= - 20.6 kJ/mol Will this reaction proceed spontaneously at 298 K and 1 atm pressure?

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Question 53

Using the thermodynamic data provided below, calculate the standard change in entropy when one mole of sodium nitrate is dissolved in water?   Will the solubility of sodium nitrate increase or decrease if the temperature of the system is increased?

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Question 54

For the reaction CuS(s)+ H₂(g) H₂S(g)+ Cu(s), $\Delta$G°_f (CuS)= -53.6 kJ/mol $\Delta$G°_f (H₂S)= -33.6 kJ/mol $\Delta$H°_f (CuS)= -53.1 kJ/mol $\Delta$H°_f (H₂S)= -20.6 kJ/mol Calculate $\Delta$G at 798 K and 1 atm pressure (assume $\Delta$S°and $\Delta$H° do not change with temperature).

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The answer of For the reaction CuS(s)+ H₂(g) ...

Question 55

Predict the normal boiling point of triethylborane (C₆H₁₅B)using the following data: A)92°C B)-21°C C)21°C D)365°C E)256°C

Accepted Answer

The answer of Predict the normal boiling point of triethylborane...

Question 56

Calculate $\Delta$G° for the combustion of ethanol vapor, C₂H₅OH(g), at 750°C in oxygen to form carbon dioxide and water vapor. The following data is valid at 25°C: A)-1407 kJ/mol B)-2151 kJ/mol C)-1307 kJ/mol D)-4486 kJ/mol E)-1377 kJ/mol

Accepted Answer

The answer of Calculate $\Delta$G&#176; for the combustion of ethanol...

Question 57

In the gas phase, methyl isocyanate (CH₃NC)isomerizes to acetonitrile (CH₃CN), H₃C-N$\equiv$C (g) H₃C-C$\equiv$N (g) With $\Delta$H° = -89.5 kJ/mol and $\Delta$G° = - 73.8 kJ/mol at 25°C. Find the equilibrium constant for this reaction at 100°C. A)1.68 $\times$ 10^-10 B)5.96 $\times$ 10⁹ C)2.16 $\times$ 10¹⁰ D)4.63 $\times$ 10^-11 E)8.64 $\times$ 10¹²

Accepted Answer

The answer of In the gas phase, methyl isocyanate (CH₃NC)isomerizes...

Question 58

For the reaction CuS(s)+ H₂(g) H₂S(g)+ Cu(s), $\Delta$G°_f (CuS)= -53.6 kJ/mol $\Delta$G°_f (H₂S)= -33.6 kJ/mol $\Delta$H°_f (CuS)= -53.1 kJ/mol $\Delta$H°_f (H₂S)= -20.6 kJ/mol Calculate the value of the equilibrium constant (K_p)at 798 K and 1 atm pressure.

Accepted Answer

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Question 59

Find the temperature at which the reaction N₂O₄(g) 2NO₂(g)will be in equilibrium when both gases are present at partial pressures of 1.00 atm. A)300°C B)28°C C)55°C D)32°C E)562°C

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The answer of Find the temperature at which the reaction...

Question 60

The standard free energy of formation of gaseous hydrogen iodide is 1.30 kJ/mol at 25°C.Find K_p for the reaction H₂(g)+ I₂(s) 2HI(g)at this temperature. A)7.0 B)7100 C)1.0 D)2.4 E)2.9

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Question 61

What is the free energy change for the reaction SiO₂(s)+ Pb(s)$\to$PbO₂(s)+ Si(s)? $\Delta$G°_f (PbO₂)= -217 kJ/mol $\Delta$G°_f (SiO₂)= -856 kJ/mol

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The answer of What is the free energy change for...

Question 62

Is the reaction SiO₂(s)+ Pb(s)$\to$ PbO₂(s)+ Si(s)spontaneous? $\Delta$G°_f (PbO₂)= -217 kJ/mol $\Delta$G°_f (SiO₂)= -856 kJ/mol

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The answer of Is the reaction SiO₂(s)+ Pb(s)$\to$ PbO₂(s)+ Si(s)spontaneous? $\Delta$G°_f...

Question 63

For the reaction SbCl₅(g) SbCl₃(g)+ Cl₂(g), $\Delta$G°_f (SbCl₅)= -334.34 kJ/mol $\Delta$G°_f (SbCl₃)= -301.25 kJ/mol $\Delta$H°_f (SbCl₅)= -394.34 kJ/mol $\Delta$H°_f (SbCl₃)= -313.80 kJ/mol Will this reaction proceed spontaneously at 298 K and 1 atm pressure?