Question 1

Using the reduction half-reactions,write an overall reaction in the direction that is spontaneous.Calculate E°.
$\begin{array}{ll}\mathrm{AgI}(s)+e^{-} \rightarrow \mathrm{Ag}(s)+\mathrm{I}-(a q) & E_{\mathrm{red}}^{0}=-0.152 \mathrm{~V} \\\mathrm{Co}^{3+}(a q)+e^{-} \rightarrow \mathrm{Co}^{2+}(a q) & E_{\mathrm{red}}^{\circ}=+1.953 \mathrm{~V}\end{array}$

A) Co²⁺(aq)+ AgI(s)? Co³⁺(aq)+ Ag(s)+ I?(aq)E° = ?2.105 V
B) Co²⁺(aq)+ Ag(s)+ I?(aq)? Co³⁺(aq)+ AgI(s)E° = ?1.801 V
C) Co³⁺(aq)+ Ag(s)+ I?(aq)? Co²⁺(aq)+ AgI(s)E° = +1.801 V
D) Co³⁺(aq)+ Ag(s)+ I?(aq)? Co²⁺(aq)+ AgI(s)E° = +2.105 V
E) Co³⁺(aq)+ AgI(s)? Co²⁺(aq)+ Ag(s)+ I?(aq)E° = ?2.105 V

Accepted Answer

To determine the spontaneous direction, we need to calculate the overall E° by subtracting the reduction potential of the oxidation half-reaction from the reduction potential of the reduction half-reaction (reverse the sign if the oxidation half-reaction is used as a reduction and vice versa). 
The balanced overall reaction can be obtained by multiplying the reduction half-reaction of AgI by 2 and adding it to the reduction half-reaction of Co3+. This results in:
2AgI(s) + Co3+(aq) → 2Ag(s) + Co2+(aq) + 2I-(aq)
E° = E°red(Co2+/Co3+) - 2E°red(AgI/Ag) = (+1.953 V) - 2(-0.152 V) = +2.257 V
Since the overall E° is positive (+2.257 V), the reaction is spontaneous in the forward direction. 
Therefore, the correct choice is D, which matches the correct overall reaction and E°.

Question 2

Use the standard reduction potentials below to determine which of the following metals can be oxidized by 1.0 M
HCl: Al,Zn,Sn,Cu.
$\begin{array}{l}\mathrm{Al}^{3+}(a q)+3 e-\rightarrow \mathrm{Al}(s) & \bar{E}_{1 e d}^{0}=-1.68 \mathrm{~V}\\\mathrm{Zn}^{2+}(a g)+2 e^{-} \rightarrow \mathrm{Zn}(s) & E_{\circ \mathrm{z}}=-0.762 \mathrm{~V}\\\mathrm{Sn}^{2+}(a q)+2 e-\underline{\mathrm{Sn}}(s) & E_{o \mathrm{z}}^{0}=-0.141 \mathrm{~V}\\\mathrm{Cu}^{2+}(a q)+2 e^{-} \rightarrow \mathrm{Cu}(s) &E_{\mathrm{red}=+0.339 \mathrm{~V}}^{\rho}\end{array}$

A) Al only
B) Cu only
C) Al and Cu
D) Zn and Sn
E) Al,Zn,and Sn

Accepted Answer

H<sub>2</sub>(g)&#10;

Question 3

Given the following two half-reactions,write the overall balanced reaction in the direction in which it is spontaneous and calculate the standard cell potential.
$\begin{array}{ll}\mathrm{Ga}^{3+}(a q)+3 e^{-} \rightarrow \mathrm{Ga}(s) & E_{\mathrm{red}}^{\circ}=-0.53 \mathrm{~V} \\\mathrm{Sn}^{4+}(a q)+2 e^{-} \rightarrow \operatorname{Sn}^{2+}(a q) & E_{o x}^{\circ}=+0.15 \mathrm{~V} \\\end{array}$

A) 2Ga³⁺(aq)+ 3Sn²⁺(aq)? 2Ga(s)+ 3Sn⁴⁺(aq)E° = +0.68 V
B) 3Ga³⁺(aq)+ 2Sn²⁺(aq)? 3Ga(s)+ 2Sn⁴⁺(aq)E° = -1.89 V
C) 2Ga(s)+ 3Sn⁴⁺(aq)? 2Ga³⁺(aq)+ 3Sn²⁺(aq)E° = +0.68 V
D) 3Ga(s)+ 2Sn⁴⁺(aq)? 3Ga³⁺(aq)+ 2Sn²⁺(aq)E° = +0.38 V
E) 2Ga(s)+ 3Sn⁴⁺(aq)? 2Ga³⁺(aq)+ 3Sn²⁺(aq)E° = +1.89 V

Accepted Answer

To find the overall balanced reaction, we need to add the two half-reactions together, making sure that the number of electrons lost by the oxidized species equals the number of electrons gained by the reduced species:

$\begin{aligned} \mathrm{Ga}^{3+}(aq)+3 e^{-} &\rightarrow \mathrm{Ga}(s) &\quad E_{\mathrm{red}}^{\circ} &= -0.53 \mathrm{~V} \ \mathrm{Sn}^{4+}(aq)+2 e^{-} &\rightarrow \mathrm{Sn}^{2+}(aq) &\quad E_{\mathrm{ox}}^{\circ} &= +0.15 \mathrm{~V} \ \hline \mathrm{3Ga}(s)+2\mathrm{Sn}^{4+}(aq)+10e^{-} &\rightarrow 3\mathrm{Ga^{3+}}(aq)+2\mathrm{Sn^{2+}}(aq) &\quad E^{\circ} &= +0.68 \mathrm{~V} \end{aligned}$

The balanced reaction is C. The cell potential is the sum of the reduction potential and the oxidation potential:

$E^{\circ} = E_{\mathrm{red}}^{\circ} + E_{\mathrm{ox}}^{\circ}= -0.53 + 0.15 = + 0.68 \mathrm{~V}$

Question 4

Write a balanced chemical equation for the overall reaction represented below. Pt | Fe²⁺,Fe³⁺ || Cl− | AgCl | Ag A) AgCl(s)+ Fe³⁺(aq)+ 2e− → Ag(s)+ Fe²⁺(aq)+ Cl−(aq) B) AgCl(s)+ Fe³⁺(aq)→ Ag(s)+ Fe²⁺(aq)+ Cl−(aq) C) AgCl(s)+ Fe²⁺(aq)→ Ag(s)+ Fe³⁺(aq)+ Cl−(aq) D) Ag(s)+ Fe³⁺(aq)+ Cl−(aq)→ AgCl(s)+ Fe²⁺(aq) E) Ag(s)+ Fe²⁺(aq)+ Cl−(aq)→ AgCl(s)+ Fe³⁺(aq)

Accepted Answer

The given reaction is a redox reaction where electrons are transferred from Fe³⁺ to Ag+. The Pt and Ag acts as electrodes in the half-cells. The balanced chemical equation representing the overall reaction is: AgCl(s) + Fe²⁺(aq) → Ag(s) + Fe³⁺(aq) + Cl−(aq) Option C represents this equation correctly, as it shows the reactants and products of the overall redox reaction. Option A is incorrect because it includes the transfer of electrons even before the reaction has taken place, while Options B, D, and E are incorrect because they do not represent the actual products and reactants involved in the overall redox reaction.

Question 5

Write a balanced net ionic equation for the overall reaction represented by the cell notation below. Ag | AgI | I^- || Fe²⁺,Fe³⁺ | Pt A) Fe³⁺(aq)+ Ag(s)+ I^-(aq)→ Fe²⁺(aq)+ AgI(s) B) Fe²⁺(aq)+ Ag(s)+ I^-(aq)→ Fe³⁺(aq)+ AgI(s) C) Fe³⁺(aq)+ AgI(s)→ Fe²⁺(aq)+ Ag(s)+ I^-(aq) D) Fe²⁺(aq)+ AgI(s)→ Fe³⁺(aq)+ Ag(s)+ I^-(aq) E) Fe³⁺(aq)+ 2I^-(aq)→ Fe²⁺(aq)+ I₂(s)

Accepted Answer

The balanced net ionic equation involves the reduction of Fe³⁺ to Fe²⁺ and the oxidation of Ag to AgI, with I⁻ as a spectator ion.

Question 6

Given the following half-reactions, Pb(s)+ 2I−(aq)→ PbI₂(s)+ 2e−
I₂(aq)+ 2e− → 2I−(aq)
Write the balanced overall reaction.

A) Pb(s)+ I₂(aq)+ 2e− → PbI (s)+ I−(aq)
B) Pb(s)+ I₂(aq)→ PbI₂(s)
C) Pb(s)+ Cl₂(aq)→ Pb²⁺(aq)+ 2I−(aq)
D) 2Pb(s)+ 4e− → 2PbI(s)+ I₂(aq)
E) Pb(s)+ e− + 2I−(aq)→ PbI₂(aq)

Accepted Answer

The two half-reactions can be combined by reversing the second reaction and multiplying it by 2, then adding the two half-reactions together to cancel out the electrons. This gives the overall reaction: Pb(s) + 2I-(aq) + 2Hg2+(aq) -> PbI2(s) + 2Hg(l)

Question 7

What is a correct cell notation for a voltaic cell based on the reaction below? Cu²⁺(aq)+ Pb(s)+ SO₄^2-(aq)→ Cu(s)+ PbSO₄(s) A) Pb | PbSO₄ || Cu²⁺ || Cu B) Cu | Cu²⁺ || SO₄^2- | PbSO₄ | Pb C) Cu | Cu²⁺,SO₄^2- | PbSO₄ | Pb D) Cu | Cu²⁺,SO₄^2- || PbSO₄ || Pb E) Pb | PbSO₄ | SO₄^2- || Cu²⁺ || Cu

Accepted Answer

The answer of What is a correct cell notation for...

Question 8

Which of the following species are likely to behave as oxidizing agents: Li(s),H₂(g),MnO₄^-(aq),and Cl^-(aq)? A) Li(s)only B) MnO₄^-(aq)only C) H₂(g)and Cl^-(aq) D) Li(s)and MnO₄^-(aq) E) Cl^-(aq)only

Accepted Answer

The answer of Which of the following species are likely...

Question 9

The following reaction occurs spontaneously. 2 Fe(s)+ 3 Cl₂(aq)→ 2 Fe³⁺(aq)+ 6 Cl^-(aq)
Write the balanced reduction half-reaction.

A) Fe(s)→ Fe³⁺(aq)+ e^-
B) Fe(s)+ 3 e^- → Fe³⁺(aq)
C) Fe(s)+ 3/2 Cl₂(aq)→ FeCl₃(aq)
D) Cl₂(aq)→ 2 Cl^-(aq)+ 2 e^-
E) Cl₂(aq)+ 2 e^- → 2 Cl^-(aq)

Accepted Answer

The reduction half-reaction involves the gain of electrons. In this case, Cl₂ is reduced to Cl⁻ by gaining electrons.

Question 10

Write the overall chemical reaction and calculate E° for the following reduction and oxidation half-reactions.
2H⁺(aq)+ 2e? ? H₂(g) ${E}_{\text {red }}^{0}$ = 0.000 V
Zn(s)? Zn²⁺(aq)+ 2e? $E_{o x}^{\circ}$ = +0.762 V

A) Zn²⁺(aq)+ H₂(g)? Zn(s)+ 2H⁺(aq)E° = +0.381 V
B) Zn²⁺(aq)+ H₂(g)? Zn(s)+ 2H⁺(aq)E° = ?0.762 V
C) Zn(s)+ 2H⁺(aq)? Zn²⁺(aq)+ H₂(g)E° = +0.762 V
D) Zn(s)+ 2H⁺(aq)? Zn²⁺(aq)+ H₂(g)E° = ?0.762 V
E) Zn(s)+ 2H⁺(aq)? Zn²⁺(aq)+ H₂(g)E° = ?0.381 V

Accepted Answer

To determine the overall reaction, we need to add the reduction and oxidation half-reactions:
2HS1U1P1+S1S1P0(aq)+ 2e− → HS1U1B12S1U1B0(g) E° = 0.000 V (reduction half-reaction)
Zn(s)→ ZnS1U1P12+S1S1P0(aq)+ 2e− E° = +0.762 V (oxidation half-reaction)

If we reverse the reduction half-reaction, we get:
HS1U1B12S1U1B0(g) → 2HS1U1P1+S1S1P0(aq)+ 2e− E° = 0.000 V

Now we can add these reactions together, cancelling out the electrons:
Zn(s) + HS1U1B12S1U1B0(g) → ZnS1U1P12 + 2HS1U1P1+S1S1P0(aq) E° = +0.762 V (overall reaction)

Therefore, the best choice is C, which is the same as the overall reaction we derived.

Question 11

Which species is the best reducing agent?&#10;A) Sodium ion&#10;B) Sulfide ion&#10;C) Chlorine&#10;D) Sodium metal&#10;E) Silver metal

Accepted Answer

The answer of Which species is the best reducing agent?&#10;A)...

Question 12

The following reaction occurs spontaneously. 2Al(s)+ 6H⁺(aq)→ 2Al³⁺(aq)+ 3H₂(g)
Write the balanced oxidation half-reaction.

A) Al(s)→ Al³⁺(aq)+ 3e−
B) Al³⁺(aq)+ 3e− → Al(s)
C) H₂(g)→ 2H⁺(aq)+ 2e−
D) 2H⁺(aq)+ 2e− → H₂(g)
E) 2H⁺(aq)→ H₂(g)+ 2e−

Accepted Answer

The answer of The following reaction occurs spontaneously. 2Al(s)+ 6H⁺(aq)→...

Question 13

Using the reduction half-reactions,write an overall reaction in the direction that is spontaneous.Calculate E°.
$\begin{array}{ll}\mathrm{AgI}(s)+e^{-} \rightarrow \mathrm{Ag}(s)+\mathrm{I}-(a q) & E_{\mathrm{red}}^{0}=-0.152 \mathrm{~V} \\\mathrm{Co}^{3+}(a q)+e^{-} \rightarrow \mathrm{Co}^{2+}(a q) & E_{\mathrm{red}}^{\circ}=+1.953 \mathrm{~V}\end{array}$

A) Co²⁺(aq)+ AgI(s)? Co³⁺(aq)+ Ag(s)+ I?(aq)E° = ?2.105 V
B) Co²⁺(aq)+ Ag(s)+ I?(aq)? Co³⁺(aq)+ AgI(s)E° = ?1.801 V
C) Co³⁺(aq)+ Ag(s)+ I?(aq)? Co²⁺(aq)+ AgI(s)E° = +1.801 V
D) Co³⁺(aq)+ Ag(s)+ I?(aq)? Co²⁺(aq)+ AgI(s)E° = +2.105 V
E) Co³⁺(aq)+ AgI(s)? Co²⁺(aq)+ Ag(s)+ I?(aq)E° = ?2.105 V

Accepted Answer

The answer of Using the reduction half-reactions,write an overall reaction...

Question 14

What is the correct cell notation for the reaction below? Cd²⁺(aq)+ Ni(s)→ Cd(s)+ Ni²⁺(aq) A) Cd²⁺ | Cd || Ni | Ni²⁺ B) Cd | Cd²⁺ || Ni²⁺ | Ni C) Ni | Ni²⁺ || Cd²⁺ | Cd D) Ni | Cd²⁺ || Ni²⁺ | Cd E) Cd²⁺ | Cd || Ni | Ni²⁺..

Accepted Answer

The answer of What is the correct cell notation for...

Question 15

Write a balanced chemical equation for the overall reaction represented below. Cu | Cu²⁺ || Cl− | Hg₂Cl₂ | Hg A) 2Hg(l)+ Cu²⁺(aq)+ 2Cl−(aq)→ Hg₂Cl₂(s)+ Cu(s) B) Hg₂Cl₂(s)+ Cu(s)→ 2Hg(l)+ Cu²⁺(aq)+ 2Cl−(aq) C) Hg₂Cl₂(s)→ 2Hg(l)+ Cl₂(aq) D) Hg₂Cl₂(s)+ Cu(s)→ 2Hg(l)+ Cu²⁺(aq)+ Cl₂(aq) E) 2Hg(l)+ Cl₂(aq)→ Hg₂Cl₂(s)

Accepted Answer

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Question 16

Given the following half-reactions, 2IO₃−(aq)+ 12H⁺(aq)+ 10e− → I₂(s)+ 6H₂O(l)
Fe²⁺(aq)→ Fe³⁺(aq)+ e−
Write the balanced overall reaction.

A) 2IO₃−(aq)+ Fe²⁺(aq)→ I₂(s)+ Fe³⁺(aq)
B) 2IO₃−(aq)+ 10Fe²⁺(aq)→ I₂(s)+ 10Fe³⁺(aq)
C) 2IO₃−(aq)+ 12H⁺(aq)+ Fe²⁺(aq)→ FeI₂(s)+ 6H₂O(l)
D) 2IO₃−(aq)+ 12H⁺(aq)+ Fe²⁺(aq)→ I₂(s)+ Fe³⁺(aq)+ 6H₂O(l)
E) 2IO₃−(aq)+ 12H⁺(aq)+ 10Fe²⁺(aq)→ I₂(s)+ 10Fe³⁺(aq)+ 6H₂O(l)

Accepted Answer

The answer of Given the following half-reactions, 2IO₃−(aq)+ 12H⁺(aq)+ 10e−...

Question 17

The standard reduction potential, ${E}_{\text {red }}^{0}$ ,of Zn²⁺(aq)is ?0.762 V.Write the equation for the standard oxidation potential.What is the value of $E_{o x}^{\circ}$ ? A) Zn²⁺(aq)+ 2e? ? Zn(s) $E_{o x}^{\circ}$ = ?0.762 V B) Zn²⁺(aq)? Zn(s)+ 2e? $E_{o x}^{\circ}$ = +0.762 V C) Zn²⁺(aq)? Zn(s)+ 2e? $E_{o x}^{\circ}$ = ?0.762 V D) Zn(s)+ 2e? ? Zn²⁺(aq) $E_{o x}^{\circ}$ = ?0.762 V E) Zn(s)? Zn²⁺(aq)+ 2e? $E_{o x}^{\circ}$ = +0.762 V

Accepted Answer

The answer of The standard reduction potential, ${E}_{\text {red }}^{0}$...

Question 18

Which species is the best oxidizing agent?&#10;A) Bromine&#10;B) Sodium ion&#10;C) Potassium metal&#10;D) Fluoride ion&#10;E) Carbon dioxide

Accepted Answer

The answer of Which species is the best oxidizing agent?&#10;A)...

Question 19

Which of the following species are reducing agents: K,H⁺,MnO₄−,Cl₂,Sn⁴⁺? A) K only B) K and Co³⁺ C) H⁺ and Sn⁴⁺ D) MnO₄− and Cl₂ E) Cl₂ and Sn⁴⁺

Accepted Answer

The answer of Which of the following species are reducing...

Question 20

The standard oxidation potential, $E_{o x}^{\circ}$ ,of Cu(s)is ?0.339 V.The oxidation product is the copper(II)ion.Write the equation for the standard reduction potential.What is the value of the standard reduction potential, ${E}_{\text {red }}^{0}$ ?

A) Cu²⁺(aq)? Cu(s)+ 2e?

{E}_{\text {red }}^{0}

= ?0.339 V
B) Cu²⁺(aq)+ 2e? ? Cu(s)

{E}_{\text {red }}^{0}

= +0.339 V
C) Cu(s)+ 2e? ? Cu²⁺(aq)

{E}_{\text {red }}^{0}

= ?0.339 V
D) Cu(s)? Cu²⁺(aq)+ 2e?

{E}_{\text {red }}^{0}

= +0.339 V
E) Cu(s)+ 2e? ? Cu²⁺(aq)

{E}_{\text {red }}^{0}

= +0.339 V

Accepted Answer

The answer of The standard oxidation potential, $E_{o x}^{\circ}$ ,of...

Question 21

The standard reduction potentials for F₂(g)and Br₂(l)are +2.889 V and 1.077 V,respectively.Write the chemical equation and calculate E° for a voltaic cell based on fluorine and bromine. A) F₂(g)+ 2Br−(aq)→ 2F−(aq)+ Br₂(g)E° = +1.812 V B) F₂(g)+ Br₂(g)→ 2F−(aq)+ 2Br−(aq)E° = −1.812 V C) F₂(g)+ Br₂(g)→ 2F−(aq)+ 2Br−(aq)E° = +1.812 V D) 2F−(aq)+ 2Br−(aq)→ F₂(g)+ Br₂(g)E° = +1.812 V E) Br₂(g)+ 2F−(aq)→ 2Br−(aq)+ F₂(g)E° = −1.812 V

Accepted Answer

The answer of The standard reduction potentials for F₂(g)and Br₂(l)are...

Question 22

The cell voltage,E&#176;,is ____ for a reaction taking place in a voltaic cell.&#10;A) reductive&#10;B) oxidative&#10;C) negative&#10;D) zero&#10;E) positive

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The answer of The cell voltage,E&#176;,is ____ for a reaction...

Question 23

In an electrochemical cell,if E > E° then A) Q > 1. B) Q < 1. C) n = 1. D) F > 9.648 × 10⁴. E) the system has reached equilibrium.

Accepted Answer

The answer of In an electrochemical cell,if E > E&#176;...

Question 24

Use the standard reduction potentials below to determine which of the following metals can be oxidized by 1.0 M
HCl: Al,Zn,Sn,Cu.
$\begin{array}{l}\mathrm{Al}^{3+}(a q)+3 e-\rightarrow \mathrm{Al}(s) & \bar{E}_{1 e d}^{0}=-1.68 \mathrm{~V}\\\mathrm{Zn}^{2+}(a g)+2 e^{-} \rightarrow \mathrm{Zn}(s) & E_{\circ \mathrm{z}}=-0.762 \mathrm{~V}\\\mathrm{Sn}^{2+}(a q)+2 e-\underline{\mathrm{Sn}}(s) & E_{o \mathrm{z}}^{0}=-0.141 \mathrm{~V}\\\mathrm{Cu}^{2+}(a q)+2 e^{-} \rightarrow \mathrm{Cu}(s) &E_{\mathrm{red}=+0.339 \mathrm{~V}}^{\rho}\end{array}$

A) Al only
B) Cu only
C) Al and Cu
D) Zn and Sn
E) Al,Zn,and Sn

Accepted Answer

The answer of Use the standard reduction potentials below to...

Question 25

Calculate the equilibrium constant for the following reaction at 25°C, 2IO₃^-(aq)+ 5Hg(l)+ 12H⁺(aq)? I₂(s)+ 5Hg²⁺(aq)+ 6H₂O(l) Given the following thermodynamic information.(R = 8.31 J/K?mol,F = 96480 C/mol e?)z
$\begin{array}{ll}\mathrm{IO}_{3}{ }^{-}(a q)+6 \mathrm{H}^{+}(a q)+5 e^{-} \rightarrow \mathrm{I}_{2}(s)+3 \mathrm{H}_{2} \mathrm{O}(l) & E^{\circ}=+1.20 \mathrm{~V} \\\mathrm{Hg}^{2+}(a q)+2 e^{-} \rightarrow \mathrm{Hg}(l) & E^{\circ}=+0.86 \mathrm{~V}\end{array}$

A) 3 × 10^-58
B) 6 × 10⁵
C) 3 × 10¹¹
D) 6 × 10²⁸
E) 3 × 10⁵⁷

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

Question 26

What is the relationship between ?G&#176; and E&#176;?&#10;A) ?G&#176; = FE&#176;&#10;B) ?G&#176; = ?nFE&#176;&#10;C) $\Delta G^{\circ}=\frac{E^{\circ}}{F}$&#10;D) $\Delta G^{\circ}=\frac{n E^{\circ}}{F}$&#10;E) $\Delta G^{\circ}=-\frac{n E^{\circ}}{F}$

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The answer of What is the relationship between ?G&#176; and...

Question 27

The overall chemical reaction for the electrolytic decomposition of water is 2H₂O → O₂(g)+ 2H₂(g)
What is the reduction half-reaction?

A) 2H⁺(aq)→ H₂(g)+ 2e−
B) H₂(g)+ 2OH−(aq)+ 2e− → 2H₂O(l)
C) 2H₂O(l)+ 2e− → H₂(g)+ 2OH−(aq)
D) O₂(g)+ 4H⁺(aq)+ 4e− → 2H₂O(l)
E) H₂O(l)→ H₂(g)+ O²⁻(aq)+ 2e−

Accepted Answer

The answer of The overall chemical reaction for the electrolytic...

Question 28

For a spontaneous reaction,at constant pressure A) ΔG° > 0 and E° > 0. B) ΔG° > 0 and E° < 0. C) ΔG° < 0 and E° > 0. D) ΔG° < 0 and E° < 0. E) ΔG° = 0 and E° = 0.

Accepted Answer

The answer of For a spontaneous reaction,at constant pressure&#10;A) &#916;G&#176;...

Question 29

A voltaic cell is based upon the following overall reaction: 2Ag⁺(aq)+ Sn(s)→ 2Ag(s)+ Sn²⁺(aq)
Where E° = +0.940 V.Calculate the equilibrium constant at 25°C? (R = 8.31 J/K⋅mol,F = 96480 C/mol e−)

A) 6.1 × 10¹²
B) 8.0 × 10¹⁵
C) 1.6 × 10²³
D) 6.5 × 10³¹
E) 9.1 × 10⁴³

Accepted Answer

The answer of A voltaic cell is based upon the...

Question 30

Calculate E° for the electrochemical cell below, Ag | AgCl| Cl^- || Cu²⁺ | Cu
Given the following standard reduction potentials.
$\begin{array}{ll}\mathrm{Cu}^{2+}(a q)+2 e^{-} \rightarrow \mathrm{Cu}(s) & E^{\circ}=+0.337 \mathrm{~V} \\\mathrm{AgCl}(\mathrm{s})+e^{-} \rightarrow \mathrm{Ag}(\mathrm{s})+\mathrm{Cl}^{-}(a q) & E^{\circ}=+0.222 \mathrm{~V}\end{array}$

A) -0.115 V
B) -0.107 V
C) +0.115 V
D) +0.452 V
E) +0.559 V

Accepted Answer

The answer of Calculate E&#176; for the electrochemical cell below,...

Question 31

Calculate E° for the electrochemical cell below, Ag | AgCl| Cl^- || Cu²⁺ | Cu
Given the following standard reduction potentials.
$\begin{array}{ll}\mathrm{Cu}^{2+}(a q)+2 e^{-} \rightarrow \mathrm{Cu}(s) & E^{\circ}=+0.337 \mathrm{~V} \\\mathrm{AgCl}(\mathrm{s})+e^{-} \rightarrow \mathrm{Ag}(\mathrm{s})+\mathrm{Cl}^{-}(a q) & E^{\circ}=+0.222 \mathrm{~V}\end{array}$

A) -0.115 V
B) -0.107 V
C) +0.115 V
D) +0.452 V
E) +0.559 V

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The answer of Calculate E&#176; for the electrochemical cell below,...

Question 32

Which of the following half-reactions has been assigned a standard reduction potential of 0.00 V? A) 2H⁺(aq)+ 2e− → H₂(g) B) Ag⁺(aq)+ e− → Ag(s) C) Hg₂Cl₂(s)+ 2e− → 2Hg(l)+ 2Cl−(aq) D) Au³⁺(aq)+ 3e− → Au(s) E) Cu²⁺(aq)+ 2e− → Cu(s)

Accepted Answer

The answer of Which of the following half-reactions has been...

Question 33

Calculate ?G° for the disproportionation reaction of Cu⁺ at 25°C, 2Cu⁺(aq)? Cu²⁺(aq)+ Cu(s) Given the following thermodynamic information.(R = 8.31 J/K?mol,F = 96480 C/mol e?)
$\begin{array}{lccc} \mathrm{Cu}^{+}(a q)+e^{-} \rightarrow \mathrm{Cu}(s) & E^{\circ}=+0.518 \mathrm{~V} \\ \mathrm{Cu}^{2+}(a q)+2 e^{-} \rightarrow \mathrm{Cu}(s)&E^{\circ}=+0.337 \mathrm{~V} \\\end{array}$

A) -165 kJ
B) -135 kJ
C) -34.9 kJ
D) +17.5 kJ
E) +135 kJ

Accepted Answer

The answer of Calculate ?G&#176; for the disproportionation reaction of...

Question 34

Calculate E for the following electrochemical cell at 25°C, Cu | Cu²⁺ (0.100 M)|| Zn²⁺ (0.0750 M)| Zn
If E° (Cu²⁺)= +0.339 V and E° (Zn²⁺)= −0.762 V.(R = 8.31 J/K⋅mol,F = 96480 C/mol e−)

A) −1.105 V
B) −0.919 V
C) −0.486 V
D) −0.259 V
E) +0.486 V

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The answer of Calculate E for the following electrochemical cell...

Question 35

Calculate E° for an electrochemical cell based on the following overall reaction: 2H⁺(aq)+ Cd(s)? H₂(g)+ Cd²⁺(aq)
If ${E}_{\text {red }}^{o}$ (H⁺)= 0.000 V and ${E}_{\text {red }}^{o}$ (Cd²⁺)= ?0.402 V.

A) ?0.402 V
B) ?0.201 V
C) 0.000 V
D) +0.201 V
E) +0.402 V

Accepted Answer

The answer of Calculate E&#176; for an electrochemical cell based...

Question 36

A voltaic cell is based upon the half-reactions below. $\begin{array}{lccc}\mathrm{Pb}^{2+}(a q)+2 e^{-} \rightarrow \mathrm{Pb}(s) & E^{\circ}=-0.127 \mathrm{~V}\\\mathrm{Cd}^{2+}(a q)+2 e^{-} \rightarrow \mathrm{Cd}(s) & E^{\circ}=-0.402 \mathrm{~V} \\\end{array}$

Calculate the equilibrium constant for the overall chemical reaction at 25°C.(R = 8.31 J/K?mol,F = 96480 C/mol e?)

A) 1.3 × 10²
B) 4.4 × 10⁴
C) 2.0 × 10⁹
D) 3.9 × 10¹⁸
E) 1.3 × 10²¹

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Question 37

What is the correct form of the Nernst equation?&#10;A) $E^{\circ}=E-\frac{R T}{n F} \ln Q$&#10;B) $E=E^{\circ}-\frac{R T}{n F} \ln Q$&#10;C) $E=E^{\circ}-\frac{n F}{R T} \ln Q$&#10;D) $G=E^{\circ}+\frac{R T}{n F} \ln Q$&#10;E) $G^{\circ}=G-\frac{R T}{n F} \ln Q$

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Question 38

Calculate &#916;G&#176; for a voltaic cell with E&#176; = +0.24 V if the overall reaction involves a 3 electron reduction.(R = 8.31 J/K&#8901;mol,F = 96480 C/mol e&#8722;)&#10;A) &#8722;69 kJ&#10;B) &#8722;23 kJ&#10;C) &#8722;0.83 kJ&#10;D) + 220 kJ&#10;E) +580 kJ

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Question 39

What is the relationship between E&#176; and the equilibrium constant,K?&#10;A) $E^{\circ}=\frac{R T}{n F} \ln K$&#10;B) $E^{\circ}=\frac{n F}{R T} \ln K$&#10;C) E&#176; = RT ln K&#10;D) E&#176; = ?RT ln K&#10;E) $E^{\circ}=\frac{n F}{R T} \log K$

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Question 40

Given the following standard reduction potentials, $\begin{array}{ll}\mathrm{Pb}^{2+}(a q)+2 e^{-} \rightarrow \mathrm{Pb}(s) & E^{\circ}=-0.126 \mathrm{~V} \\\mathrm{PbSO}_{4}(s)+2 e^{-} \rightarrow \mathrm{Pb}(\mathrm{s})+\mathrm{SO}_{4}^{2-}(a q) & E^{\circ}=-0.355 \mathrm{~V}\end{array}$
Determine K_sp for PbSO₄(s)at 25°C.(R = 8.31 J/K?mol,F = 96480 C/mol e?)

A) 3.4 × 10^-28
B) 1.8 × 10^-8
C) 5.6 × 10^-5
D) 5.6 × 10⁷
E) 2.9 × 10³⁷

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Question 41

Al³⁺ is reduced to Al(s)at an electrode surface.If a current of 25 amperes is maintained for 8.0 hours,what mass of aluminum is deposited on the electrode? Assume 100% current efficiency. A) 0.019 g B) 2.5 g C) 44 g D) 67 g E) 2.0 × 10² g

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Question 42

If current is passed in an electrolytic cell containing sodium chloride dissolved in water,what is the product at the cathode? A) H⁺ B) NaCl(s) C) H₂(g) D) Cl₂(g) E) O₂(g)

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Question 43

What charge,in coulombs,is required to deposit 1.5 g Mg(s)from a solution of Mg²⁺(aq)? (F = 96480 C/mol e−) A) 4.1 × 10² C B) 6.0 × 10³ C C) 1.2 × 10⁴ C D) 2.9 × 10⁵ C E) 3.1 × 10⁶ C

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Question 44

For the lead storage battery,the products of the discharge reaction are A) Pb at the anode,H₂O at the cathode. B) H₂SO₄ at the anode,H₂O at the cathode. C) PbSO₄ at both the anode and cathode. D) Pb at the cathode and PbO₂ at the anode. E) Pb at both the anode and cathode.

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Question 45

What is the pH of the solution at the cathode if E = -0.362 V for the following electrochemical cell at 25°C? Pt | H₂(1.0 atm)| H⁺(1.00 M)|| H⁺(aq)| H₂(1.0 atm)| Pt A) 1.77 B) 3.06 C) 6.11 D) 7.89 E) 12.23

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Question 46

Calculate E for the following electrochemical cell at 25°C
Pt | Fe³⁺(0.100 M),Fe²⁺(0.040 M)|| Cl^-(0.50 M)| AgCl | Ag
Given the following standard reduction potentials.
$\begin{array}{ll}\left.\mathrm{AgCl}(s)+e^{-} \rightarrow \mathrm{Ag}^{2+}\right)+\mathrm{Cl}^{-}(a q) & E^{\circ}=+0.222 \mathrm{~V} \\\mathrm{Fe}^{3+}(a q)+e^{-} \rightarrow \mathrm{Fe}^{2+}(a q) & E^{\circ}=+0.771 \mathrm{~V}\end{array}$

A) -1.034 V
B) -0.590 V
C) -0.508 V
D) -0.555 V
E) +1.034 V

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Question 47

What charge (in Coulombs)is required to oxidize 1.0 g of silver to silver(I)ions? (F = 96480 C/mol e−) A) 1.0 × 10−⁵ C B) 1.1 × 10−³ C C) 3.1 × 10−¹ C D) 6.1 × 10¹ C E) 8.9 × 10² C

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Question 48

Calculate E for the following electrochemical cell at 25°C, Pt | H₂(g)(1.0 atm)| H⁺ (0.010 M)|| Ag⁺ (0.020 M)| Ag
If E° (H⁺)= +0.000 V and E° (Ag⁺)= 0.799 V.

A) +0.275 V
B) +0.799 V
C) +0.817 V
D) +0.911 V
E) +1.01 V

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Question 49

What concentration of Ag⁺ is present in the following electrochemical cell if E = −0.683 V and E° (Ag⁺)= +0.799 V at 25°C? Ag | Ag⁺ (? M)|| H⁺ (1.0 M)| H₂ (1.0 atm)| Pt A) 9.3 × 10−²⁶ M B) 8.1 × 10−⁴ M C) 1.1 × 10−² M D) 9.1 × 10−¹ M E) 9.1 × 10¹ M

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Question 50

One kind of battery used in watches contains mercury(II)oxide.As current flows,the mercury(II)oxide is reduced to mercury. HgO(s)+ H₂O(l)+ 2e^- → Hg(l)+ 2OH^-(aq) If 2.3 × 10^-5 amperes flows continuously for 1200 days,what mass of Hg(l)is produced? (F = 96480 C/mol e−) A) 2.5 g B) 5.0 g C) 9.9 g D) 13 g E) 15 g

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Question 51

An electrolytic cell is used to plate silver from a silver nitrate solution onto an electrode.How much time (in seconds)is required to deposit 8.0 g of silver if the current is kept constant at 5.0 amperes? Assume 100% current efficiency.(F = 96480 C/mol e−) A) 1.7 × 10² s B) 1.4 × 10³ s C) 2.5 × 10⁴ s D) 5.9 × 10⁴ s E) 2.6 × 10⁵ s

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Question 52

A baby's spoon with an area of 6.25cm² is plated with silver from a silver nitrate solution using a current of 2.00 A for two hours and 25 minutes.What is the thickness of the silver plate formed if the current efficiency is 82%? (F = 96480 C/mol e−)(d _Ag= 10.5 g/cm³) A) 0.300 cm B) 0.243 cm C) 0.366 cm D) 0.166 cm E) 5.34 × 10−² cm

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Deck 17: Electrochemistry