Question 1

Which of the following is the weakest oxidizing agent? A)Sn²⁺(aq) B)Cr³⁺(aq) C)Sn⁴⁺(aq) D)Cr(s) E)Sn(s)

Accepted Answer

Cr(s)

Question 2

Which of the following is the strongest reducing agent? A)Na(s) B)Li⁺(aq) C)Ca(s) D)Ca²⁺(aq) E)Li(s)

Accepted Answer

Li is the strongest reducing agent because it has the lowest ionization energy among the given options. Lower ionization energy means it takes less energy to remove an electron from Li, making it easier for Li to donate electrons, thus making it a stronger reducing agent.

Question 3

What is undergoing reduction in the redox reaction represented by the following cell notation?
$\quad$ $\quad$ $\quad$ Pb(s)| Pb²⁺(aq) $\|$ H⁺(aq)| H₂(g)| Pt(s)

A)H₂(g)
B)H⁺(aq)
C)Pb²⁺(aq)
D)Pb(s)
E)Pt(s)

Accepted Answer

In the cell notation, Cl₂(g) is reduced to Cl^-(aq), indicating that Cl₂ is undergoing reduction.

Question 4

Describe how water can be made to be a good conductor of electrical current.&#10;A)use pure water&#10;B)heat the water&#10;C)add salt&#10;D)chill the water&#10;E)vaporize the water

Accepted Answer

Adding salt to water will dissociate the salt into positively and negatively charged ions, making it an electrolyte solution that can conduct electricity. Pure water does not have ions and therefore cannot conduct electricity. Heating water, chilling water, and evaporating water do not affect its ability to conduct electricity.

Question 5

Determine the redox reaction represented by the following cell notation:
$\quad$ $\quad$ Mg(s)| Mg²⁺(aq) $\|$ Cu²⁺(aq)| Cu(s)

A)Cu(s)+ Mg²⁺(aq)? Mg(s)+ Cu²⁺(aq)
B)Mg(s)+ Cu²⁺(aq)? Cu(s)+ Mg²⁺(aq)
C)2Mg(s)+ Cu²⁺(aq)? Cu(s)+ 2Mg²⁺(aq)
D)2Cu(s)+ Mg²⁺(aq)? Mg(s)+ 2Cu²⁺(aq)
E)3Mg(s)+ 2Cu²⁺(aq)? 2Cu(s)+ 3Mg²⁺(aq)

Accepted Answer

The reaction involves the oxidation of magnesium (Mg) to Mg2+ ions and the reduction of copper (Cu2+ ions to elemental copper (Cu). The oxidized form of magnesium is Mg(s) and Mg2+ in solution, while the reduced form of copper is Cu2+ ions and Cu(s). Based on the standard reduction potentials, Mg has a more negative reduction potential than Cu2+ ions. Hence, Mg is oxidized and Cu2+ ions are reduced, which means that the cell notation must be flipped and the sign of the standard cell potential must be reversed to obtain the balanced half-reactions. The resulting balanced half-reactions are: 
Mg(s) → Mg2+ + 2e- (oxidation)
Cu2+ + 2e- → Cu(s) (reduction) 
Combining these two half-reactions gives the overall equation:  
Mg(s) + Cu2+ → Mg2+ + Cu(s)
which corresponds to choice B.

Question 6

What is undergoing reduction in the redox reaction represented by the following cell notation?
$\quad$ $\quad$ $\quad$ Pb(s)| Pb²⁺(aq) $\|$ H⁺(aq)| H₂(g)| Pt(s)

A)H₂(g)
B)H⁺(aq)
C)Pb²⁺(aq)
D)Pb(s)
E)Pt(s)

Accepted Answer

In the given cell notation, the reduction half-reaction occurs at the cathode, which is on the right side of the double vertical line. Here, $H^+$ ions are reduced to $H_2$ gas.

Question 7

What is the reducing agent in the redox reaction represented by the following cell notation?
$\quad$ $\quad$ $\quad$ Sn(s)| Sn²⁺(aq) $\|$ Ag⁺(aq)| Ag(s)

A)Sn(s)
B)Ag⁺(aq)
C)Sn²⁺(aq)
D)Ag(s)
E)Pt(s)

Accepted Answer

The reducing agent is the substance that is being oxidized, which is Sn(s) in this case.

Question 8

What is the reducing agent in the redox reaction represented by the following cell notation?
$\quad$ $\quad$ $\quad$ Sn(s)| Sn²⁺(aq) $\|$ Ag⁺(aq)| Ag(s)

A)Sn(s)
B)Ag⁺(aq)
C)Sn²⁺(aq)
D)Ag(s)
E)Pt(s)

Accepted Answer

In the given cell notation, Ni(s) is oxidized to Ni²⁺(aq), losing electrons, which makes it the reducing agent.

Question 9

Determine the cell notation for the redox reaction given below:
$\quad$ $\quad$ Pb(s)+ 2H⁺ (aq)? Pb²⁺(aq)+ H₂(g)

A)H⁺(aq)| H₂(g)| Pt(s)

\|

Pb(s)| Pb²⁺(aq)
B)H₂(g)| H⁺(aq)| Pt(s)

\|

Pb²⁺(aq)| Pb(s)
C)Pb²⁺(aq)| Pb(s)

\|

H₂(g)| H⁺(aq)| Pt(s)
D)Pb(s)| Pb²⁺(aq)

\|

H⁺(aq)| H₂(g)| Pt(s)
E)Pb(s)| H₂(g)

\|

Pb²⁺(aq)| H⁺(aq)| Pt(s)

Accepted Answer

The correct cell notation for the given redox reaction is: Pb(s)| Pb²⁺(aq) $\|$ H⁺(aq)| H₂(g)| Pt(s). The anode (oxidation) half-cell is Pb(s) to Pb²⁺(aq), and the cathode (reduction) half-cell is H⁺(aq) to H₂(g), with Pt as the inert electrode.

Question 10

Which of the following is the strongest reducing agent? A)Sn²⁺(aq) B)Cr³⁺(aq) C)Sn⁴⁺(aq) D)Cr(s) E)Sn(s)

Accepted Answer

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Question 11

What is undergoing oxidation in the redox reaction represented by the following cell notation?
$\quad$ $\quad$ $\quad$ Pb(s)| Pb²⁺(aq) $\|$ H⁺(aq)| H₂(g)| Pt(s)

A)H₂(g)
B)H⁺(aq)
C)Pb²⁺(aq)
D)Pb(s)
E)Pt(s)

Accepted Answer

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Question 12

Determine the cell notation for the redox reaction given below:
$\quad$ $\quad$ $\quad$ 3Cl₂(g)+ 2Fe(s)? 6Cl^- (aq)+ 2Fe³⁺(aq)

A)Cl₂(g)| Cl^- (aq)| Pt(s)

\|

Fe(s)| Fe³⁺(aq)
B)Cl^- (aq)| Cl₂(g)| Pt(s)

\|

Fe³⁺(aq)|Fe(s)
C)Fe³⁺(aq)| Fe(s)

\|

Cl^- (aq)| Cl₂(g)| Pt(s)
D)Fe(s)| Cl₂(g)

\|

Fe³⁺(aq)| Cl^- (aq)| Pt(s)
E)Fe(s)| Fe³⁺(aq)

\|

Cl₂(g)| Cl^- (aq)| Pt(s)

Accepted Answer

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Question 13

How many electrons are transferred in the following reaction? (The reaction is unbalanced.) I₂(s)+ Fe(s)→ Fe³⁺(aq)+ I^- (aq) A)1 B)2 C)6 D)3 E)4

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Question 14

Which of the following is TRUE about standard electrode potentials? A)E°_cell^{is negative for spontaneous reactions.} B)Electrons will flow from a more positive electrode to a more negative electrode. C)The electrode potential of the standard hydrogen electrode is exactly zero. D)E°_cellis the sum between standard reduction potentials of the anode and the cathode. E)The electrode in any half-cell with a greater tendency to undergo reduction is negatively charged relative to the standard hydrogen electrode and therefore has E° < 0.

Accepted Answer

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Question 15

Determine the cell notation for the redox reaction given below:
$\quad$ $\quad$ $\quad$ Sn(s)+ 2Ag⁺ (aq)? Sn²⁺(aq)+ 2Ag(s)

A)Ag⁺(aq)| Ag(s)

\|

Sn(s)| Sn²⁺(aq)
B)Ag(s)| Ag⁺(aq)

\|

Sn²⁺(aq)| Sn(s)
C)Sn(s)| Sn²⁺(aq)

\|

Ag⁺(aq)| Ag(s)
D)Sn²⁺(aq)| Sn(s)

\|

Ag(s)| Ag⁺(aq)
E)Sn(s)| Ag(s)

\|

Sn²⁺(aq)| Ag⁺(aq)

Accepted Answer

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Question 16

What is the oxidizing agent in the redox reaction represented by the following cell notation?
$\quad$ $\quad$ $\quad$ Ni(s)| Ni²⁺(aq) $\|$ Ag⁺(aq)| Ag(s)

A)Ni(s)
B)Ni²⁺(aq)
C)Ag⁺(aq)
D)Ag(s)
E)Pt(s)

Accepted Answer

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Question 17

What is the oxidizing agent in the redox reaction represented by the following cell notation?
$\quad$ $\quad$ $\quad$ Ni(s)| Ni²⁺(aq) $\|$ Ag⁺(aq)| Ag(s)

A)Ni(s)
B)Ni²⁺(aq)
C)Ag⁺(aq)
D)Ag(s)
E)Pt(s)

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Question 18

Which of the following is the strongest reducing agent? A)Al(s) B)Zn(s) C)Mg(s) D)Al³⁺(aq) E)Mg²⁺(aq)

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Question 19

What is undergoing oxidation in the redox reaction represented by the following cell notation?
$\quad$ $\quad$ $\quad$ Pb(s)| Pb²⁺(aq) $\|$ H⁺(aq)| H₂(g)| Pt(s)

A)H₂(g)
B)H⁺(aq)
C)Pb²⁺(aq)
D)Pb(s)
E)Pt(s)

Accepted Answer

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Question 20

How many electrons are transferred in the following reaction? (The reaction is unbalanced.) Fe²⁺(aq)+ K(s)→ Fe(s)+ K⁺(aq) A)1 B)2 C)3 D)4 E)6

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Question 21

Use the standard half-cell potentials listed below to calculate the standard cell potential for the following reaction occurring in an electrochemical cell at 25 °C.(The equation is balanced.) 2K(s)+ I₂(s)→ 2K⁺ (aq)+ 2I^- (aq)
K⁺(aq)+ e^- → K (s)E° = -2.93 V
I₂(s)+ 2 e^- → 2 I^- (aq)E° = +0.54 V

A)+6.40 V
B)+1.85 V
C)-5.32 V
D)+3.47 V
E)+5.32 V

Accepted Answer

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Question 22

Use the standard half-cell potentials listed below to calculate the standard cell potential for the following reaction occurring in an electrochemical cell at 25 °C.(The equation is balanced.) 3Cl₂(g)+ 2Fe(s)→ 6Cl^- (aq)+ 2Fe³⁺(aq)
Cl₂(g)+ 2 e^- → 2Cl^- (aq)E° = +1.36 V
Fe³⁺(aq)+ 3 e^- → Fe(s)E° = -0.04 V

A)+4.16 V
B)-1.40 V
C)-1.32 V
D)+1.32 V
E)+1.40 V

Accepted Answer

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Question 23

Use the standard half-cell potentials listed below to calculate the standard cell potential for the following reaction occurring in an electrochemical cell at 25 °C.(The equation is balanced.) Sn(s)+ 2Ag⁺ (aq)→ Sn²⁺(aq)+ 2Ag(s)
Sn²⁺(aq)+ 2 e^- → Sn(s)E° = -0.14 V
Ag⁺ (aq)+ e^- → Ag(s)E° = +0.80 V

A)+1.74 V
B)+0.94 V
C)+1.08 V
D)-1.08 V
E)-1.74 V

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Question 24

Use the standard half-cell potentials listed below to calculate the standard cell potential for the following reaction occurring in an electrochemical cell at 25 °C.(The equation is balanced.) Mg(s)+ Cu²⁺(aq)→ Cu(s)+ Mg²⁺(aq)
Mg²⁺(aq)+ 2 e^- → Mg(s)E° = -2.38 V
Cu²⁺(aq)+ 2 e^- → Cu(s)E° = +0.34 V

A)+2.04 V
B)-2.04 V
C)+2.72 V
D)-1.36 V
E)+1.36 V

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Question 25

If the standard reduction potential of Zn is -0.76 V,which of the following statements about a cell whose half-cells are Zn²⁺/Zn and SHE is correct? A)SHE will be the cell's cathode,Zn(s)will be the cell's anode,and the measured cell potential will be 0.76 V. B)SHE will be the cell's anode,Zn(s)will be the cell's cathode,and the measured cell potential will be 0.76 V. C)SHE will be the cell's cathode,Zn(s)will be the cell's anode,and the measured cell potential will be -0.76 V. D)SHE will be the cell's cathode,Zn²⁺(aq)will be the cell's anode,and the measured cell potential will be 0.76 V. E)H⁺(aq)will be the cell's cathode,Zn²⁺(aq)will be the cell's anode,and the measured cell potential will be 0.76 V.

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Question 26

Which of the following reactions would be the most spontaneous at 298 K? A)A + 2 B → C; E°_cell = +0.98 V B)A + B → 2 C; E°_cell = -0.030 V C)A + B → 3 C; E°_cell = +0.15 V D)A + B → C; E°_cell = +1.22 V E)A + B → C; E°_cell = -1.22 V

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Question 27

Which of the following is the strongest oxidizing agent? A)H₂O₂(aq) B)Fe³⁺(aq) C)ClO₂(g) D)I₂(s) E)Fe(s)

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Question 28

Which of the following is the strongest oxidizing agent? A)Al(s) B)Zn²⁺(aq) C)Mg(s) D)Al³⁺(aq) E)Mg²⁺(aq)

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Question 29

Use the standard half-cell potentials listed below to calculate the standard cell potential for the following reaction occurring in an electrochemical cell at 2 5°C.(The equation is balanced.) Pb(s)+ Br₂(l)→ Pb²⁺(aq)+ 2 Br⁻(aq)
Pb²⁺(aq)+ 2 e^- → Pb(s)E° = -0.13 V
Br₂(l)+ 2 e^- → 2 Br^- (aq)E° = +1.07 V

A)+1.20 V
B)+0.94 V
C)-0.94 V
D)-1.20 V
E)-0.60 V

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Question 30

Which of the following is the weakest reducing agent? A)Br₂(l) B)Au³⁺(aq) C)Ag(s) D)Br^- (aq) E)Au(s)

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Question 31

Which of the following metals will dissolve in HCl? A)Au; E°(Au³⁺/Au)= +1.50V B)Ag; E°(Ag⁺/Ag)= +0.80V C)Cu; E°(Cu²⁺/Cu)= +0.34V D)Al; E°(Al³⁺/Al)= -1.66V E)Pt; E°(Pt²⁺/Pt)= +1.19V

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Question 32

Which of the following is the weakest oxidizing agent? A)H₂O₂(aq) B)Fe³⁺(aq) C)ClO₂(g) D)I₂(s) E)Fe(s)

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Question 33

Which of the following is the strongest oxidizing agent? A)MnO₂(s) B)Cl^- (aq) C)Cu⁺(aq) D)SO₄^2-(aq) E)MnO₄^- (aq)

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Question 34

Determine which of the following pairs of reactants will result in a spontaneous reaction at 25 °C. A)Pb²⁺(aq)+ Cu(s); if E°(Pb²⁺/Pb)= -0.13V and E°(Cu²⁺/Cu)= +0.16V B)Ag⁺(aq)+ Br^- (aq); if E°(Ag⁺/Ag)= 0.80V and E°(Br₂/Br^-)= +1.09V C)Li⁺(aq)+ Al(s); if E°(Li⁺/Li)= -3.04V and E°(Al³⁺/Al)= -1.66V D)Fe³⁺(aq)+ Ni(s); if E°(Fe³⁺/Fe)= -0.04V and E°(Ni²⁺/Ni)= -0.23V E)Cd²⁺(aq)+ I^-(aq); if E°(Cd²⁺/Cd)= -0.40V and E°(I₂/I^-)= + 0.54V

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Question 35

Which of the following is the strongest oxidizing agent? A)Br₂(l) B)Au³⁺(aq) C)Ag(s) D)Br^- (aq) E)Au(s)

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Question 36

Determine which of the following pairs of reactants will result in a spontaneous reaction at 25 °C. A)Sn⁴⁺(aq)+ Mg(s); if E°(Sn⁴⁺/Sn²⁺)= +0.15V and E°(Mg²⁺/Mg)= -2.37V B)Cr³⁺(aq)+ Ni(s); if E°(Cr³⁺/Cr)= -0.73V and E°(Ni²⁺/Ni)= -0.23V C)Zn(s)+ Na⁺(aq); if E°(Zn²⁺/Zn)= -0.76V and E°(Na⁺/Na)= -2.71V D)Fe(s)+ Ba²⁺(aq); if E°(Fe³⁺/Fe)= -0.04V and E°(Ba²⁺/Ba)= -2.90V E)Ni²⁺(aq)+ NO(g); if E°(Ni²⁺/Ni)= -0.23V and E°(NO₃^-/NO)= +0.96V

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Question 37

Which of the following metals will dissolve in nitric acid but not hydrochloric acid? A)Fe; E°(Fe²⁺/Fe)= -0.45V B)Pb; E°(Pb²⁺/Pb)= -0.13V C)Cu; E°(Cu²⁺/Cu)= +0.34V D)Sn; E°(Sn²⁺/Sn)= -0.14V E)Ni; E°(Ni²⁺/Ni)= -0.23V

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Question 38

Determine which of the following pairs of reactants will result in a spontaneous reaction at 25 °C. A)I^-(aq)+ Zn²⁺(aq); if E°(I₂/I^-)= + 0.54V and E°(Zn²⁺/Zn)= -0.76V B)Ca(s)+ Mg²⁺(aq); if E°(Ca²⁺/Ca)= -2.76V and E°(Mg²⁺/Mg)= -2.37V C)H₂(g)+ Cd²⁺(aq); if E°(Cd²⁺/Cd)= -0.40V D)Ag(s)+ Sn²⁺(aq); if E°(Ag⁺/Ag)= + 0.80V and E°(Sn²⁺/Sn)= -0.14V E)Ag⁺(aq)+ Mn²⁺(aq); if E°(Ag⁺/Ag)= + 0.80V and E°(MnO₄^-/Mn²⁺)= +1.51V

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Question 39

Which of the following statements is true for the cell diagram below?
$\quad$ Zn(s)| Zn²⁺(aq) $\|$ Cu²⁺(aq)| Cu(s)

A)Zn is oxidized,Cu is reduced; the single vertical lines represent phase boundaries while the two vertical lines represent a salt bridge.
B)Zn²⁺is oxidized,Cu is reduced; the single vertical lines represent phase boundaries while the two vertical lines represent a salt bridge.
C)Zn is oxidized,Cu²⁺ is reduced; the single vertical lines represent phase boundaries while the two vertical lines represent a salt bridge.
D)Zn is oxidized,Cu²⁺ is reduced; the single vertical lines represent salt bridges while the two vertical lines represent a phase boundary.
E)Zn is reduced,Cu²⁺ is oxidized; the single vertical lines represent phase boundaries while the two vertical lines represent a salt bridge.

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Question 40

Which of the following metals will dissolve in nitric acid but not hydrochloric acid? A)Cd; E°(Cd²⁺/Cd)= -0.40V B)Cr; E°(Cr³⁺/Cr)= -0.73V C)Mn; E°(Mn²⁺/Mn)= -1.18V D)Ag; E°(Ag⁺/Ag)= +0.80V E)Al; E°(Al³⁺/Al)= -1.66V

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Question 41

Calculate the cell potential for the following unbalanced reaction that takes place in an electrochemical cell at 25 °C when [ $\mathrm { Cr } ^ { 3 }$ ] = 0.945 M and [ $\mathrm { Zn } ^ { 2 + }$ ] = 1.37 M
$\quad$ $\quad$ Zn(s)+ $\mathrm { Cr } ^ { 3+ }$ (aq)? $\mathrm { Zn } ^ { 2 + }$ (aq)+ Cr(s)
E°(Zn²⁺/Zn)= -0.76 V and E°(Cr³⁺/Cr)= -0.73 V

A)+0.03 V
B)-0.03 V
C)-1.18 V
D)+1.18 V
E)+0.49 V

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Question 42

Calculate the cell potential for the following unbalanced reaction that takes place in an electrochemical cell at 25 °C when [ $\mathrm { Cr } ^ { 3 }$ ] = 0.945 M and [ $\mathrm { Zn } ^ { 2 + }$ ] = 1.37 M
$\quad$ $\quad$ Zn(s)+ $\mathrm { Cr } ^ { 3+ }$ (aq)? $\mathrm { Zn } ^ { 2 + }$ (aq)+ Cr(s)
E°(Zn²⁺/Zn)= -0.76 V and E°(Cr³⁺/Cr)= -0.73 V

A)+0.03 V
B)-0.03 V
C)-1.18 V
D)+1.18 V
E)+0.49 V

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Question 43

Calculate the cell potential for the following unbalanced reaction that takes place in an electrochemical cell at 25 °C when [ $\mathrm { Mg } ^ { 2 + }$ ] = 3.20 M and [ $\mathrm { Fe } ^ { 3 + }$ ] = 0.000100 M
$\quad$ $\quad$ $\quad$ Mg(s)+ $\mathrm { Fe } ^ { 3 + }$ (aq)? $\mathrm { Mg } ^ { 2 + }$ (aq)+ Fe(s)
E°(Mg²⁺/Mg)= -2.37 V and E°(Fe³⁺/Fe)= -0.036 V

A)-2.24 V
B)+2.24 V
C)+1.24 V
D)-1.24 V
E)+2.14 V

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Question 44

Calculate the cell potential for the following unbalanced reaction that takes place in an electrochemical cell at 25 °C when [ $\mathrm { Cr } ^ { 3+ }$ ] = 2.00 M and [ $\mathrm { Zn } ^ { 2 + }$ ] = 0.00300 M
$\quad$ $\quad$ Zn(s)+ $\mathrm { Cr } ^ { 3+ }$ (aq)? $\mathrm { Zn } ^ { 2 + }$ (aq)+ Cr(s)
E°(Zn²⁺/Zn)= -0.76 V and E°(Cr³⁺/Cr)= -0.73 V

A)+0.06 V
B)-0.19 V
C)+1.30 V
D)+0.02 V
E)+0.11 V

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Question 45

Calculate the cell potential for the following reaction that takes place in an electrochemical cell at 25 °C:
$\quad$ $\quad$ $\quad$ Sn(s)| Sn²⁺(aq,1.8 mol L^-1) $\|$ Ag⁺(aq,0.055 mol L^-1)| Ag(s)
E°(Sn²⁺/Sn)= -0.14 V and E°(Ag⁺/Ag)= +0.80 V

A)-0.94 V
B)-0.85 V
C)+1.02 V
D)+0.98 V
E)+0.86 V

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Question 46

Calculate the cell potential for the following unbalanced reaction that takes place in an electrochemical cell at 25 °C when [ $\mathrm { Mg } ^ { 2 + }$ ] = 0.500 M and [ $\mathrm { Fe } ^ { 3 + }$ ] = 2.00 M
$\quad$ $\quad$ Mg(s)+ $\mathrm { Fe } ^ { 3 + }$ (aq)? $\mathrm { Mg } ^ { 2 + }$ (aq)+ Fe(s)
E°(Mg²⁺/Mg)= -2.37 V and E°(Fe³⁺/Fe)= -0.036 V

A)+2.09 V
B)-3.18 V
C)+2.35 V
D)+0.36 V
E)-1.51 V

Accepted Answer

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Question 47

Calculate the cell potential for the following reaction that takes place in an electrochemical cell at 25 °C:
$\quad$ $\quad$ $\quad$ Sn(s)| Sn²⁺(aq,0.010 mol L^-1) $\|$ Ag⁺(aq,1.00 mol L^-1)| Ag(s)
E°(Sn²⁺/Sn)= -0.14 V and E°(Ag⁺/Ag)= +0.80 V

A)+1.18 V
B)-1.18 V
C)+1.00 V
D)+0.94 V
E)-0.94 V

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Question 48

Calculate the cell potential for the following reaction that takes place in an electrochemical cell at 25 °C:
$\quad$ $\quad$ $\quad$ Sn(s)| Sn²⁺(aq,1.8 mol L^-1) $\|$ Ag⁺(aq,0.055 mol L^-1)| Ag(s)
E°(Sn²⁺/Sn)= -0.14 V and E°(Ag⁺/Ag)= +0.80 V

A)-0.94 V
B)-0.85 V
C)+1.02 V
D)+0.98 V
E)+0.86 V

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Question 49

Use the provided reduction potentials to calculate Δ_rG° for the following redox reaction: 2Al(s)+ 3Mg²⁺(aq)→ 2Al³⁺(aq)+ 3Mg(s) E°(Al³⁺/Al)= -1.66 V and E°(Mg²⁺/Mg)= -2.37 V A)+4.1 × 10² kJ mol^-1 B)+1.4 × 10² kJ mol^-1 C)-2.3 × 10² kJ mol^-1 D)-7.8 × 10² kJ mol^-1 E)+6.8 × 10² kJ mol^-1

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Question 50

Calculate the cell potential for the following reaction that takes place in an electrochemical cell at 25 °C:
$\quad$ $\quad$ $\quad$ Sn(s)| Sn²⁺(aq,1.8 mol L^-1) $\|$ Ag⁺(aq,0.055 mol L^-1)| Ag(s)
E°(Sn²⁺/Sn)= -0.14 V and E°(Ag⁺/Ag)= +0.80 V

A)-0.94 V
B)-0.85 V
C)+1.02 V
D)+0.98 V
E)+0.86 V

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Question 51

Use the provided reduction potentials to calculate the equilibrium constant (K)for the following balanced redox reaction at 25 °C: 2Al(s)+ 3Mg²⁺(aq)→ 2Al³⁺(aq)+ 3Mg(s) E°(Al³⁺/Al)= -1.66 V and E°(Mg²⁺/Mg)= -2.37 V A)1.1 × 10⁷² B)8.9 × 10^-70 C)9.7 × 10^-73 D)1.0 × 10²⁴ E)4.6 × 10³¹

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Question 52

Use the tabulated half-cell potentials to calculate the equilibrium constant (K)for the following balanced redox reaction at 25 °C: 3I₂(s)+ 2Fe(s)→ 2Fe³⁺(aq)+ 6I^- (aq) E°(I₂/I^-)= + 0.54 V and E°(Fe³⁺/Fe)= -0.036 V A)3.5 × 10^-59 B)1.1 × 10¹⁷ C)2.4 × 10⁵⁸ D)8.9 × 10^-18 E)1.7 × 10²⁹

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Question 53

Use the provided reduction potentials to calculate Δ_rG° for the following balanced redox reaction: Pb²⁺(aq)+ Cu(s)→ Pb(s)+ Cu²⁺(aq) E°(Pb²⁺/Pb)= -0.13 V and E°(Cu²⁺/Cu)= +0.34 V A)-41 kJ mol^-1 B)-0.47 kJ mol^-1 C)+46 kJ mol^-1 D)+91 kJ mol^-1 E)-21 kJ mol^-1

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Question 54

Use the tabulated half-cell potentials to calculate the equilibrium constant (K)for the following balanced redox reaction at 25 °C: Pb²⁺(aq)+ Cu(s)→ Pb(s)+ Cu²⁺(aq) E°(Pb²⁺/Pb)= -0.13 V and E°(Cu²⁺/Cu)= +0.34 V A)7.9 × 10^-8 B)8.9 × 10⁷ C)7.9 × 10¹⁵ D)1.3 × 10^-16 E)1.1 × 10^-8

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Question 55

Calculate the cell potential for the following reaction that takes place in an electrochemical cell at 25 °C:
$\quad$ $\quad$ $\quad$ Sn(s)| Sn²⁺(aq,1.8 mol L^-1) $\|$ Ag⁺(aq,0.055 mol L^-1)| Ag(s)
E°(Sn²⁺/Sn)= -0.14 V and E°(Ag⁺/Ag)= +0.80 V

A)-0.94 V
B)-0.85 V
C)+1.02 V
D)+0.98 V
E)+0.86 V

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Question 56

Calculate the cell potential for the following unbalanced reaction that takes place in an electrochemical cell at 25 °C when [ $\mathrm { Mg } ^ { 2 + }$ ] = 0.500 M and [ $\mathrm { Fe } ^ { 3 + }$ ] = 2.00 M
$\quad$ $\quad$ Mg(s)+ $\mathrm { Fe } ^ { 3 + }$ (aq)? $\mathrm { Mg } ^ { 2 + }$ (aq)+ Fe(s)
E°(Mg²⁺/Mg)= -2.37 V and E°(Fe³⁺/Fe)= -0.036 V

A)+2.09 V
B)-3.18 V
C)+2.35 V
D)+0.36 V
E)-1.51 V

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Question 57

Which of the following reactions would have the smallest value of K at 298 K? A)A + B → C; E°_cell = +1.22 V B)A + 2 B → C; E°_cell = +0.98 V C)A + B → 2 C; E°_cell = -0.030 V D)A + B → 3 C; E°_cell = +0.15 V E)A + B → C; E°_cell = -0.015 V

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Question 58

Calculate the cell potential for the following unbalanced reaction that takes place in an electrochemical cell at 25 °C when [ $\mathrm { Mg } ^ { 2 + }$ ] = 0.914 M and [ $\mathrm { Fe } ^ { 3 + }$ ] = 0.0230 M
$\quad$ $\quad$ Mg(s)+ $\mathrm { Fe } ^ { 3 + }$ (aq)? $\mathrm { Mg } ^ { 2 + }$ (aq)+ Fe(s)
E°(Mg²⁺/Mg)= -2.37 V and E°(Fe³⁺/Fe)= -0.036 V

A)+2.32 V
B)+2.30 V
C)-2.32 V
D)-2.30 V
E)+1.23 V

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Question 59

Use the provided reduction potentials to calculate Δ_rG° for the following balanced redox reaction: 3I₂(s)+ 2Fe(s)→ 2Fe³⁺(aq)+ 6I^- (aq) E°(I₂/I^-)= + 0.54 V and E°(Fe³⁺/Fe)= -0.036 V A)-1.1 × 10² kJ mol^-1 B)+4.9 × 10¹ kJ mol^-1 C)-9.7 × 10¹kJ mol^-1 D)+2.3 × 10² kJ mol^-1 E)-3.3 × 10² kJ mol^-1

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Question 60

Identify the characteristics of a spontaneous reaction. A)Δ_rG° > 0 B)ΔE°_cell < 0 C)K < 0 D)ΔE°_cell > 0 E)K = 0

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Question 61

Predict the species that will be reduced first if a mixture of molten salts containing the following ions undergoes electrolysis: Na⁺,Ca²⁺,Cl^-,Br^-,F^- A)Na⁺ B)Cl^- C)Ca²⁺ D)Br^- E)F^-

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Question 62

How much copper,in g,can be plated from a solution of $\mathrm { Cu } ^ { 2 + }$ if 3.14 A is applied for 45 minutes?&#10;A)2.79 g&#10;B)1.85 g&#10;C)11.2 g&#10;D)0.283 g&#10;E)7.64 g

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Question 63

Nickel can be plated from aqueous solution according to the following half-reaction.How long would it take (in min)to plate 29.6 g of nickel at 4.7 A? Ni²⁺(aq)+ 2 e^- → Ni(s) A)1.7 × 10² min B)5.9 × 10² min C)3.5 × 10² min D)4.8 × 10² min E)6.2 × 10² min

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Question 64

What mass of silver can be plated onto an object in 33.5 minutes at 8.70 A of current? Ag⁺ (aq)+ e^- → Ag(s) A)19.6 g B)0.326 g C)9.78 g D)3.07 g E)0.102 g

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Deck 18: Electrochemistry