Question 1

Oxidation is the ________&#10;A) gain of electrons.&#10;B) loss of electrons.&#10;C) gain of protons.&#10;D) loss of protons.&#10;E) loss of mass.

Accepted Answer

Oxidation is the loss of electrons.

Question 2

Fuel cells are being developed for commercial use that use hydrogen as a fuel. In these cells, hydrogen combines with oxygen in the air to produce water as the only product. This combination appears to be a perfect source of energy, except hydrogen is highly explosive and challenging to store. The fuel cells produce no waste products because the water essentially is recycled, and the energy is obtained from the sun rather than from fossil fuels. When 1 mol of hydrogen gas is ________ in the fuel cell, ________mole(s) of electrons are transferred.

A) reduced, 1
B) reduced, 2
C) oxidized, 2
D) reduced, 4
E) oxidized, 4

Accepted Answer

In a hydrogen fuel cell, oxygen is reduced, and 4 moles of electrons are transferred per mole of O2.

Question 3

What is the oxidation number of chromium in the ionic compound ammonium dichromate, (NH₄)₂Cr₂O₇? A) +3 B) +4 C) +5 D) +6 E) +7

Accepted Answer

In ammonium dichromate, the ammonium ion has a charge of +1, and the overall charge of the compound is 0. Since there are two ammonium ions for every one dichromate ion (Cr2O7), the dichromate ion must have a charge of -2. Each oxygen atom in the dichromate ion has a charge of -2, for a total of -14. Therefore, each chromium atom in the dichromate ion must have a charge of +12 to balance the charges. Dividing that charge by the number of chromium atoms in the ion (+2) gives an oxidation state of +6.

Question 4

Reduction refers to ________&#10;A) a decrease in oxidation number.&#10;B) an increase in oxidation number.&#10;C) a gain in the number of protons.&#10;D) a decrease in the atomic number.&#10;E) loss of mass.

Accepted Answer

Reduction involves the gain of electrons, which results in a decrease in the oxidation number.

Question 5

You have a job as a summer intern in an orange juice processing plant. Part of your job is to determine the amount of vitamin C in a given quantity of orange juice. To make this determination, you titrate the orange juice with I₃^-, the triiodide ion. To make sure you know what you are doing, your supervisor asks you how many electrons are transferred in the reaction. The reaction describing the titration is given below. What is your response?
Ascorbate + H₂O + I₃^- $\rightarrow$ dehydroascorbate + 2H⁺ + 3I^-

A) 1
B) 2
C) 4
D) 0
E) It is impossible to tell.

Accepted Answer

The reaction shows that ascorbate loses two electrons to form dehydroascorbate, while three triiodide ions each gain one electron to form iodide ions. Therefore, a total of 2 electrons are transferred in the reaction.

Question 6

Which one of the following items does not characterize a reducing agent? A) A reducing agent loses electrons. B) A reducing agent causes another species to be reduced. C) The oxidation number of a reducing agent increases. D) A good reducing agent is a metal in a high oxidation state, such as Mn⁷⁺. E) An example of a good reducing agent is an alkali metal, such as Na.

Accepted Answer

Option D is incorrect as it states that a good reducing agent is a metal in a high oxidation state, when in fact, a reducing agent is typically a metal in a low oxidation state.

Question 7

The following reaction occurs in a new battery called the super iron battery. In this reaction, ________ is reduced.
2K₂FeO₄(aq) + 3Zn(s) $\longrightarrow$ Fe₂O₃(s) + ZnO(s) + 2K₂ZnO₂(aq)

A) Fe in K₂FeO₄
B) Zn metal
C) Fe in Fe₂O₃
D) Zn in ZnO
E) Zn in K₂ZnO₂

Accepted Answer

Zinc (Zn) is oxidized as it goes from an oxidation state of 0 in Zn(s) to +2 in ZnO and K2ZnO2.

Question 8

When aluminum metal is obtained from aluminum oxide (Al₂O₃), ________ moles of electrons must be transferred for each mole of aluminum oxide processed. A) 2 B) 3 C) 4 D) 6 E) 9

Accepted Answer

The balanced chemical equation for the reduction of aluminum oxide to aluminum metal involves the transfer of 6 moles of electrons for each mole of aluminum oxide processed. This is because the reaction requires 3 moles of electrons for each aluminum ion (Al^3+) to be reduced to aluminum metal, and there are 2 aluminum ions in each formula unit of aluminum oxide (Al2O3), totaling 6 moles of electrons needed.

Question 9

In the smelting of iron from iron oxide according to the equation
Fe₂O₃(s) + 3CO(g) $\longrightarrow$ 2Fe(s) + 3CO₂(g)
What is the change in oxidation number for iron?

A) +3
B) -3
C) +2
D) -2
E) 0

Accepted Answer

In Fe2O3, iron has an oxidation state of +3. In the product, Fe, iron is in its elemental state with an oxidation number of 0. The change in oxidation number for iron is from +3 to 0, which is a decrease of 3.

Question 10

Which one of the following items does not characterize an oxidizing agent? A) An oxidizing agent gains electrons. B) An oxidizing agent causes another species to be oxidized. C) The oxidation number of an oxidizing agent decreases. D) A good oxidizing agent is a metal in a high oxidation state, such as Mn⁷⁺. E) An example of a good oxidizing agent is an alkali metal, such as Na.

Accepted Answer

Alkali metals like Na are not good oxidizing agents; they are reducing agents because they tend to lose electrons easily.

Question 11

For the following reaction, which statement, A-D, is not correct? If more than one is not correct, respond E.
2Au + 4Cl₂ $\rightarrow$ 2AuCl₄^-

A) Au is the reducing agent.
B) Cl₂is the oxidizing agent.
C) Au is oxidized.
D) The equation is balanced.
E) More than one statement is not correct.

Accepted Answer

The answer of For the following reaction, which statement, A-D,...

Question 12

Oxidation refers to ________&#10;A) an increase in oxidation number.&#10;B) a decrease in oxidation number.&#10;C) a gain in the number of protons.&#10;D) an increase in the atomic number.&#10;E) an increase in mass.

Accepted Answer

The answer of Oxidation refers to ________&#10;A) an increase in...

Question 13

Glancing at a periodic table, where do you expect to find elements that are good oxidizing agents?&#10;A) on the right (except for the last group)&#10;B) in the middle left&#10;C) in the top left&#10;D) at the bottom&#10;E) in the transition metals

Accepted Answer

The answer of Glancing at a periodic table, where do...

Question 14

The following reaction occurs in a new battery called the super iron battery. In this reaction, ________ is reduced.
2K₂FeO₄(aq) + 3Zn(s) $\longrightarrow$ Fe₂O₃(s) + ZnO(s) + 2K₂ZnO₂(aq)

A) Fe in K₂FeO₄
B) Zn metal
C) Fe in Fe₂O₃
D) Zn in ZnO
E) Zn in K₂ZnO₂

Accepted Answer

The answer of The following reaction occurs in a new...

Question 15

When hydrogen reacts with a metal to form a hydride (e.g., CaH₂), what are the oxidation numbers of the calcium, in this case, and hydrogen, respectively, in the product? A) -2 and +1 B) +1 and -2 C) +2 and -1 D) 0 and 0 E) +2 and -2

Accepted Answer

The answer of When hydrogen reacts with a metal to...

Question 16

The following reaction occurs in a newly developed battery. This battery is called the super iron battery because iron occurs in the unusual oxidation state of ________
2K₂FeO₄(aq) + 3Zn(s) $\longrightarrow$ Fe₂O₃(s) + ZnO(s) + 2K₂ZnO₂(aq)

A) +1.
B) +2.
C) +3.
D) +6.
E) +9.

Accepted Answer

The answer of The following reaction occurs in a newly...

Question 17

Fuel cells are being developed for commercial use that use hydrogen as a fuel. In these cells, hydrogen combines with oxygen in the air to produce water as the only product. This combination appears to be a perfect source of energy, except hydrogen is highly explosive and challenging to store. The fuel cells produce no waste products because the water essentially is recycled, and the energy is obtained from the sun rather than from fossil fuels. When 1 mol of hydrogen gas is ________ in the fuel cell, ________mole(s) of electrons are transferred.

A) reduced, 1
B) reduced, 2
C) oxidized, 2
D) reduced, 4
E) oxidized, 4

Accepted Answer

The answer of Fuel cells are being developed for commercial...

Question 18

The following reaction occurs in basic solution. Identify the oxidizing agent. Note that the reaction equation is not balanced.
H₂O(l) + Zn(s) + NO₃^-(aq) + OH^-(aq) $\rightarrow$ Zn(OH)₄²^-(aq) + NH₃(aq)

A) Zn(s)
B) NO₃^-(aq)
C) OH^-(aq)
D) H₂O(l)
E) NH₃(aq)

Accepted Answer

The answer of The following reaction occurs in basic solution....

Question 19

Reduction is the ________&#10;A) gain of electrons.&#10;B) loss of electrons.&#10;C) gain of protons.&#10;D) loss of protons.&#10;E) loss of mass.

Accepted Answer

The answer of Reduction is the ________&#10;A) gain of electrons.&#10;B)...

Question 20

Where in the periodic table do you find the elements that are the best reducing agents with the most negative standard reduction potentials?&#10;A) in group 16&#10;B) on the left&#10;C) in the middle&#10;D) at the bottom&#10;E) in group 17

Accepted Answer

The answer of Where in the periodic table do you...

Question 21

Which statement regarding voltaic cells is not correct?&#10;A) Reduction occurs at the cathode.&#10;B) Anions move through the barrier or bridge toward the electrode where oxidation is occurring.&#10;C) The electrode where reduction is occurring is represented by a positive sign.&#10;D) Electrons flow in the external circuit from the cathode to the anode.&#10;E) Electrons flow in the external circuit toward the electrode represented by a positive sign.

Accepted Answer

The answer of Which statement regarding voltaic cells is not...

Question 22

The diagram below represents a voltaic cell. In this cell, the electron flow is from ________
Cd(s)|Cd²⁺(aq)||Fe²⁺(aq),Fe³⁺(aq)|Pt(s)

A) Pt to Cd²⁺.
B) Pt to Cd.
C) Fe²⁺ to Cd²⁺.
D) Cd²⁺ to Fe³⁺.
E) Cd to Fe³⁺.

Accepted Answer

The answer of The diagram below represents a voltaic cell....

Question 23

This is a true story; can you explain what happened? Prior to a really important dinner party, the hostess discovered that her silverware was very tarnished. She needed a quick fix. She remembered reading that the tarnish (Ag₂S) would be removed if you immersed the silverware in a hot solution of baking soda (NaHCO₃) in a pan lined with aluminum foil. So she did, and so it was, but she noticed a bit of a rotten egg smell (H₂S) being produced. Which one of the following statements cannot represent what might have been happening? MetalMetal ion
$E _ { \text {red } } ^ { \circ }$
silver/silver(I) $\quad 0.799$
aluminum/aluminum(III) $\quad - 1.677$

A) Al

\rightarrow

Al³⁺ + 3e^-
B) Ag⁺ + e^-

\rightarrow

Ag
C) 2HCO₃^- +S²^-

\rightarrow

H₂S + 2CO₃²^-
D) 3Ag₂S + 2Al +3H₂O

\rightarrow

6Ag + Al₂O₃ +3H₂S
E) 2HCO₃^- +Ag₂S

\rightarrow

H₂S + 2CO₃²^- + 2Ag

Accepted Answer

The answer of This is a true story; can you...

Question 24

A voltaic cell is constructed based on the oxidation of zinc metal and the reduction of silver cations. Solutions of silver nitrate and zinc nitrate also were used. Locate the silver nitrate on the diagram.

A) a
B) b
C) c
D) d

Accepted Answer

The answer of A voltaic cell is constructed based on...

Question 25

The diagram below represents a voltaic cell. Which one of the statements about this cell is not correct.
Zn(s)|Zn²⁺(1.0 M)||Cu²⁺(1.0 M)|Cu(s)

A) The mass of the zinc electrode decreases during discharge.
B) The copper electrode is the anode.
C) Electrons flow through the external circuit from the zinc electrode to the copper electrode.
D) Reduction occurs at the copper electrode during discharge.
E) The concentration of copper ions decreases during discharge.

Accepted Answer

The answer of The diagram below represents a voltaic cell....

Question 26

This is a true story; can you explain what happened? Prior to a really important dinner party, the hostess discovered that her silverware was very tarnished. She needed a quick fix. She remembered reading that the tarnish (Ag₂S) would be removed if you immersed the silverware in a hot solution of baking soda (NaHCO₃) in a pan lined with aluminum foil. So she did, and so it was, but she noticed a bit of a rotten egg smell (H₂S) being produced. MetalMetal ion
$E _ { \text {red } } ^ { \circ }$
silver/silver(I) $\quad \quad\quad\quad\quad0.799$
aluminum/aluminum(III) $\quad- 1.677$

A) Aluminum ions react with S²^-, form an aluminum sulfide precipitate, and gaseous carbon dioxide is released.
B) Silver ions in the presence of the baking soda, (NaHCO₃), oxidize the sulfide to elemental sulfur that attacks the aluminum foil, which produces the smelly aluminum sulfide.
C) The aluminum acts as a reducing agent for the silver(I) in the silver sulfide; then the bicarbonate ion protonates the sulfide ion that is released.
D) Aluminum is plated onto the silver surface, making it shiny again, and then the reaction of the bicarbonate with the aluminum oxide releases CO₂.
E) Silver in Ag₂S reduces the aluminum, becomes metallic silver in the process, and releases hydrogen sulfide, H₂S.

Accepted Answer

The answer of This is a true story; can you...

Question 27

Which statement about a voltaic cell is not correct?&#10;A) The standard reduction potential is a measure of the propensity for a reduction half-reaction to occur when concentrations are 1 M, the pressure is 1 atm, and the temperature is 298 K.&#10;B) A reduction half-reaction with a standard reduction potential, $E _ { \mathrm { red } } ^ { \circ }$&#10;, when reversed becomes an oxidation half-reaction with $E _ { \mathrm { ox } }$&#10;= $- E _ { \mathrm { red } } ^ { \circ }$&#10;C) The standard cell potential, $E _ { \text {cell } } ^ { 0 }$&#10;, is a measure of the electromotive force (emf) generated by the cell reactions at 298 K when concentrations are 1 M and the pressure is 1 atm.&#10;D) The emf of a cell is a measure of the force with which the cell pumps electrons from the cathode to the anode.&#10;E) The cell voltage measured with a voltmeter is not necessarily the standard cell potential.

Accepted Answer

The answer of Which statement about a voltaic cell is...

Question 28

A voltaic cell is constructed based on the oxidation of zinc metal and the reduction of silver cations. Solutions of silver nitrate and zinc nitrate also were used. Locate the silver nitrate on the diagram.

A) a
B) b
C) c
D) d

Accepted Answer

The answer of A voltaic cell is constructed based on...

Question 29

Consider the following standard reduction potentials. $\begin{array} { | l | c | } \hline { \text { Reduction Half-Reaction } } & \mathbf { E } ^ { 0 } \text { (volts) } \\\hline \mathrm { Mg } ^ { 2 + } ( a q ) + 2 \mathrm { e } ^ { - } \longrightarrow \mathrm { Mg } ( s ) & - 2.38 \\\hline \mathrm { Zn } ^ { 2 + } ( a q ) + 2 \mathrm { e } ^ { - } \longrightarrow \mathrm { Zn } ( s ) & - 0.76 \\\hline \mathrm { Cu } ^ { 2 + } ( a q ) + \mathrm { e } ^ { - } \longrightarrow \mathrm { Cu } ^ { + } ( a q ) & 0.16 \\\hline\end{array}$ Which reaction A-D will proceed spontaneously as written from left to right?

A) Mg²⁺(aq) + Zn(s)

\longrightarrow

Mg(s) + Zn²⁺(aq)
B) Mg²⁺(aq) + 2Cu⁺(aq)

\longrightarrow

Mg(s) + 2Cu²⁺(aq)
C) Zn²⁺(aq) + 2Cu⁺(aq)

\longrightarrow

Zn(s) + 2Cu²⁺(aq)
D) Zn(s) + 2Cu²⁺(aq)

\longrightarrow

Zn²⁺(aq) + 2Cu⁺(aq)
E) None of these will proceed spontaneously.

Accepted Answer

The answer of Consider the following standard reduction potentials. \[\begin{array}...

Question 30

Which statement about a voltaic cell is not correct?&#10;A) Electrons are produced as a product at the cathode.&#10;B) Reduction occurs at the cathode.&#10;C) Usually the cathode is a metal strip.&#10;D) In the external circuit, electrons flow toward the cathode.&#10;E) Chemical species can have their oxidation number decreased at the cathode.

Accepted Answer

The answer of Which statement about a voltaic cell is...

Question 31

Which statement is not correct for a voltaic cell?&#10;A) The electron flow in the external circuit is from the negative electrode to the positive electrode.&#10;B) The electron flow in the external circuit is from the anode to the cathode.&#10;C) Electrons are transferred from the oxidizing agent to the reducing agent.&#10;D) Chemical energy is transformed into electrical energy by a spontaneous redox reaction.&#10;E) Positive ions diffuse through a porous bridge from the anode compartment to the cathode compartment.

Accepted Answer

The answer of Which statement is not correct for a...

Question 32

Proteins containing a certain functional group (identified as RSH) can be titrated with triiodide ion to produce another functional group (identified as RSSR). The reaction equation is given below. What is oxidized and what is reduced in this reaction?
2RSH + I₃^- $\rightarrow$ 3I^- + RSSR + 2H⁺

A) RSH is oxidized, I₃^- is reduced.
B) RSH is reduced, I is oxidized.
C) Both RSH and I are oxidized.
D) Both RSH and I are reduced.
E) This reaction is not oxidation-reduction.

Accepted Answer

The answer of Proteins containing a certain functional group (identified...

Question 33

Which cell diagram is correct for this electrochemical cell? A) Ag(s)|Ag⁺(aq) (0.20 M)||Cu(s)|Cu²⁺(aq) (0.10 M) B) Ag(s)|Cu²⁺(aq) (0.10 M)||Ag⁺(aq) (0.20 M)|Cu(s) C) Ag⁺(aq) (0.20 M)|Ag(s)||Cu²⁺(aq) (0.10 M)|Cu(s) D) Cu(s)|Cu²⁺(aq) (0.10 M)||Ag⁺(aq) (0.20 M)|Ag(s) E) Cu(s)|Cu²⁺(aq) (0.10 M)||Ag(s)| Ag⁺(aq) (0.20 M)

Accepted Answer

The answer of Which cell diagram is correct for this...

Question 34

The electrodes on batteries are labeled + and -. The ________ is labeled ________, and ________ occurs there.&#10;A) anode; positive; oxidation&#10;B) anode; negative; reduction&#10;C) cathode; positive; reduction&#10;D) cathode; negative; reduction&#10;E) cathode; positive; oxidation

Accepted Answer

The answer of The electrodes on batteries are labeled +...

Question 35

This is a true story; can you explain what happened? Prior to a really important dinner party, the hostess discovered that her silverware was very tarnished. She needed a quick fix. She remembered reading that the tarnish (Ag₂S) would be removed if you immersed the silverware in a hot solution of baking soda (NaHCO₃) in a pan lined with aluminum foil. So she did, and so it was, but she noticed a bit of a rotten egg smell (H₂S) being produced. Which one of the following statements cannot represent what might have been happening? MetalMetal ion
$E _ { \text {red } } ^ { \circ }$
silver/silver(I) $\quad 0.799$
aluminum/aluminum(III) $\quad - 1.677$

A) Al

\rightarrow

Al³⁺ + 3e^-
B) Ag⁺ + e^-

\rightarrow

Ag
C) 2HCO₃^- +S²^-

\rightarrow

H₂S + 2CO₃²^-
D) 3Ag₂S + 2Al +3H₂O

\rightarrow

6Ag + Al₂O₃ +3H₂S
E) 2HCO₃^- +Ag₂S

\rightarrow

H₂S + 2CO₃²^- + 2Ag

Accepted Answer

The answer of This is a true story; can you...

Question 36

The electrodes on batteries are labeled + and -. The ________ is labeled ________, and ________ occurs there.&#10;A) anode; positive; oxidation&#10;B) anode; negative; oxidation&#10;C) cathode; positive; oxidation&#10;D) cathode; negative; reduction&#10;E) anode; positive; reduction

Accepted Answer

The answer of The electrodes on batteries are labeled +...

Question 37

Which statement about a cathode in a voltaic cell is not correct?&#10;A) Oxidation occurs at the cathode.&#10;B) Reduction occurs at the cathode.&#10;C) Usually the cathode is a metal strip.&#10;D) In the external circuit, electrons flow toward the cathode.&#10;E) Chemical species can have their oxidation number decreased at the cathode.

Accepted Answer

The answer of Which statement about a cathode in a...

Question 38

Consider an electrochemical cell with a Zn electrode in ZnSO₄(aq) and a Cu electrode in CuSO₄(aq). The overall chemical reaction is
Zn(s) + Cu²⁺(aq) $\rightarrow$ Zn²⁺(aq) + Cu(s)
Which one of the following statements is correct?

A) Copper is oxidized at the anode.
B) One mole of electrons is transferred in this reaction.
C) Zinc is reduced at the cathode.
D) Copper ions are reduced at the cathode.
E) Electrons travel from the Cu electrode to the Zn electrode.

Accepted Answer

The answer of Consider an electrochemical cell with a Zn...

Question 39

A voltaic cell is constructed based on the oxidation of zinc metal and the reduction of silver cations. Solutions of silver nitrate and zinc nitrate also were used. Locate the silver nitrate on the diagram.

A) a
B) b
C) c
D) d

Accepted Answer

The answer of A voltaic cell is constructed based on...

Question 40

Consider the following standard reduction potentials. $\begin{array} { | l | c | } \hline { \text { Reduction Half-Reaction } } & \mathbf { E } ^ { 0 } \text { (volts) } \\\hline \mathrm { Cr } ^ { 3 + } ( a q ) + 3 \mathrm { e } ^ { - } \longrightarrow \mathrm { Cr } ( s ) & - 0.74 \\\hline \mathrm { Cd } ^ { 2 + } ( a q ) + 2 \mathrm { e } ^ { - } \longrightarrow \mathrm { Cd } ( s ) & - 0.40 \\\hline \mathrm { Ni } ^ { 2 + } ( a q ) + 2 \mathrm { e } ^ { - } \longrightarrow \mathrm { Ni } ( s ) & - 0.23 \\\hline\end{array}$ Which reaction A-D will proceed spontaneously as written from left to right?

A) 2Cr³⁺(aq) + 3Cd(s)

\longrightarrow

2Cr(s) + 3Cd²⁺(aq)
B) 2Cr³⁺(aq) + 3Ni(s)

\longrightarrow

2Cr(s) + 3Ni²⁺(aq)
C) Cd²⁺(aq) + Ni(s)

\longrightarrow

Cd(s) + Ni²⁺(aq)
D) Cd(s) + Ni²⁺(aq)

\longrightarrow

Cd²⁺(aq) + Ni(s)
E) None of these will proceed spontaneously.

Accepted Answer

The answer of Consider the following standard reduction potentials. \[\begin{array}...

Question 41

Based on the information in the table of standard reduction potentials below, what is the standard cell potential for an electrochemical cell that has iron, Fe, and magnesium, Mg, electrodes? Also, identify the cathode. Standard Reduction Potentials (volts) in Aqueous
Solution
$\begin{array} { l l } \mathrm { Pb } ^ { 4 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Pb } ^ { 2 + } & + 1.80 \\ \mathrm { Au } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Au } & + 1.50 \\ \mathrm { Fe } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Fe } & + 0.771 \\ \mathrm { I } _ { 2 } + 2 \mathrm { e } ^ { - } \rightarrow 2 \mathrm { I } ^ { - } & + 0.535 \\ \mathrm {~Pb} ^ { 2 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Pb } & - 0.124 \\ \mathrm { Al } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Al } & - 1.66 \\ \mathrm { Mg } ^ { 2 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Mg } & - 2.37 \\ \mathrm {~K} ^ { + } + \mathrm { e } ^ { - } \rightarrow \mathrm { K } & - 2.93 \end{array}$

A) +3.14 V with Fe as the cathode
B) +3.14 V with Mg as the cathode
C) -3.14 V with Fe as the cathode
D) -3.14 V with Mg as the cathode
E) +1.60 V with Fe as the cathode

Accepted Answer

The answer of Based on the information in the table...

Question 42

What is the standard cell potential for a voltaic cell using the Pb²⁺/Pb and Mg²⁺/Mg half-reactions? Which metal is the cathode? Standard Reduction Potentials (volts) in Aqueous
Solution
$\begin{array} { l l } \mathrm { Pb } ^ { 4 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Pb } ^ { 2 + } & + 1.80 \\ \mathrm { Au } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Au } & + 1.50 \\ \mathrm { Fe } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Fe } & + 0.771 \\ \mathrm { I } _ { 2 } + 2 \mathrm { e } ^ { - } \rightarrow 2 \mathrm { I } ^ { - } & + 0.535 \\ \mathrm {~Pb} ^ { 2 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Pb } & - 0.124 \\ \mathrm { Al } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Al } & - 1.66 \\ \mathrm { Mg } ^ { 2 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Mg } & - 2.37 \\ \mathrm {~K} ^ { + } + \mathrm { e } ^ { - } \rightarrow \mathrm { K } & - 2.93 \end{array}$

A) -2.25 V, Pb is the cathode
B) +2.25 V, Mg is the cathode
C) -2.25 V, Mg is the cathode
D) +2.25 V, Pb is the cathode
E) -2.49 V, Mg is the cathode

Accepted Answer

The answer of What is the standard cell potential for...

Question 43

Consider the following standard reduction potentials. $\begin{array} { | l | c | } \hline { \text { Reduction Half-Reaction } } & \mathbf { E } ^ { 0 } \text { (volts) } \\\hline \mathrm { Cr } ^ { 3 + } ( a q ) + 3 \mathrm { e } ^ { - } \longrightarrow \mathrm { Cr } ( s ) & - 0.74 \\\hline \mathrm { Cd } ^ { 2 } + ( a q ) + 2 \mathrm { e } ^ { - } \longrightarrow \mathrm { Cd } ( s ) & - 0.40 \\\hline \mathrm { Ni } ^ { 2 + } ( a q ) + 2 \mathrm { e } ^ { - } \longrightarrow \mathrm { Ni } ( s ) & - 0.23 \\\hline\end{array}$ The Cr/Cr³⁺ half-reaction can be paired with the other two to produce voltaic cells because ________

A) Cr is a powerful oxidizing agent.
B) Cr is a powerful reducing agent.
C) Cr³⁺ is a powerful oxidizing agent.
D) Cr³⁺ is a powerful reducing agent
E) Cd and Ni are readily oxidized.

Accepted Answer

The answer of Consider the following standard reduction potentials. \[\begin{array}...

Question 44

Identify the strongest reducing agent in the following half-reactions. The standard reduction potentials are listed. $\begin{array} { l l } - 0.95 \mathrm {~V} & \mathrm { SnO } _ { 2 } ( s ) + 2 \mathrm { H } _ { 2 } \mathrm { O } ( l ) + 4 \mathrm { e } ^ { - } \rightarrow \mathrm { Sn } ( s ) + 4 \mathrm { OH } - ( a q ) \\+ 0.61 \mathrm {~V} & \mathrm { Hg } _ { 2 } \mathrm { SO } _ { 4 } ( s ) + 2 \mathrm { e } ^ { - } \rightarrow 2 \mathrm { Hg } ( l ) + \mathrm { SO } _ { 4 } { } ^ { 2 } - ( a q ) \\- 1.48 \mathrm {~V} & \mathrm { Cr } ( \mathrm { OH } ) _ { 3 } ( s ) + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Cr } ( s ) + 3 \mathrm { OH } ^ { - } ( a q ) \\+ 1.22 \mathrm {~V} & \mathrm { MnO } _ { 2 } ( s ) + 4 \mathrm { H } ^ { + } ( a q ) + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Mn } ^ { 2 + } ( a q ) + 2 \mathrm { H } _ { 2 } \mathrm { O } ( l )\end{array}$

A) Cr
B) MnO₂
C) Hg₂SO₄
D) Sn
E) Hg

Accepted Answer

The answer of Identify the strongest reducing agent in the...

Question 45

Copper is oxidized by nitric acid. If this property were used in an electrochemical cell, what would the standard cell potential be? The relevant reduction reactions and standard reduction potentials are given below. $\begin{array} { l c } + 0.34 \mathrm {~V} & \mathrm { Cu } ^ { 2 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Cu } \\+ 0.96 \mathrm {~V} & \mathrm { NO } _ { 3 } { } ^ { - } + 4 \mathrm { H } ^ { + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { NO } + 2 \mathrm { H } _ { 2 } \mathrm { O }\end{array}$

A) -0.62 V
B) +0.62 V
C) -1.30 V
D) +1.30 V
E) +0.68 V

Accepted Answer

The answer of Copper is oxidized by nitric acid. If...

Question 46

The standard hydrogen electrode is ________&#10;A) used to calibrate voltmeters.&#10;B) used to produce a set of standard reduction potentials.&#10;C) needed to activate electrochemical cells.&#10;D) often overlooked in measuring standard reduction potentials.&#10;E) used to produce a standard cell potential of exactly 1 V.

Accepted Answer

The answer of The standard hydrogen electrode is ________&#10;A) used...

Question 47

The numerical value of the Faraday constant is approximately 96,500. This value represents ________&#10;A) the coulombs of charge carried by one mole of electrons.&#10;B) the number of electrons required to produce a charge of one coulomb.&#10;C) the number of electrons required to produce one mole of electrical charge.&#10;D) the number of ions produced by removing one mole of electrons.&#10;E) the electrical current produced by transferring one mole of electrons.

Accepted Answer

The answer of The numerical value of the Faraday constant...

Question 48

In one episode of the 1960s television sitcom, Gilligan's Island, the famous "professor" constructed voltaic cells to use as substitutes for their radio's dead batteries. A single D-cell has an emf of 1.5 V. Which scraps of metal from their damaged boat, the Minnow, could best be used to create a 1.5 V voltaic cell? Assume that coconuts make great beakers and that seawater is a terrific electrolyte. Metal/Metal ion
$E _ { \text {red } } ^ { \circ }$
$\begin{array} { l l } \text { iron/iron(II) (the anchor) } & - 0.44 \\ \text { lead/lead(II) (fishing weights) } & - 0.126 \\ \text { silver/silver(I) (Mrs. Howell's brooch) } & + 0.799 \\ \text { aluminum/aluminum(III) (the boat's flagpole) } & - 1.677 \end{array}$

A) silver anode and lead cathode
B) aluminum anode and lead cathode
C) iron anode and aluminum cathode
D) aluminum anode and silver cathode
E) lead cathode and silver anode

Accepted Answer

The answer of In one episode of the 1960s television...

Question 49

Use the table of standard reduction potentials below to identify the metal or metal ion that is the strongest oxidizing agent. Standard Reduction Potentials (volts) in Aqueous Solution $$\begin{array} { l l } \mathrm { Pb } ^ { 4 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Pb } ^ { 2 + } & + 1.80 \ \mathrm { Au } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Au } & + 1.50 \ \mathrm { Fe } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Fe } & + 0.771 \ \mathrm { I } _ { 2 } + 2 \mathrm { e } ^ { - } \rightarrow 2 \mathrm { I } ^ { - } & + 0.535 \ \mathrm {~Pb} ^ { 2 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Pb } & - 0.124 \ \mathrm { Al } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Al } & - 1.66 \ \mathrm { Mg } ^ { 2 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Mg } & - 2.37 \ \mathrm {~K} ^ { + } + \mathrm { e } ^ { - } \rightarrow \mathrm { K } & - 2.93 \end{array}$$ A) Pb⁴⁺ B) Pb²⁺ C) K⁺ D) K E) Al

Accepted Answer

The answer of Use the table of standard reduction potentials...

Question 50

Luke Skywalker found that the batteries for his lightsaber were running low. A cryptic inscription on the handle translated roughly into &#34;Four AA dark-side batteries required.&#34; The total voltage produced by the four 1.50 V batteries in series therefore was 6.00 volts. If the cell reaction transfers one electron for each mole of the reactants, what is the Gibbs free-energy change for the redox reaction in each of Luke's batteries?&#10;A) -145 kJ/mol&#10;B) +145 kJ/mol&#10;C) 869 kJ/mol&#10;D) -869 kJ/mol&#10;E) +579 kJ/mol

Accepted Answer

The answer of Luke Skywalker found that the batteries for...

Question 51

The magnitude of the charge on a mole of electrons is ________ A) 1 C. B) 9.65 C. C) 9.65 *10⁴ C. D) 6.02 *10²³ C. E) 9650 C.

Accepted Answer

The answer of The magnitude of the charge on a...

Question 52

Use the table of standard reduction potentials below to identify the metal or metal ion that is the strongest reducing agent. Standard Reduction Potentials (volts) in Aqueous Solution $$\begin{array} { l l } \mathrm { Pb } ^ { 4 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Pb } ^ { 2 + } & + 1.80 \ \mathrm { Au } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Au } & + 1.50 \ \mathrm { Fe } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Fe } & + 0.771 \ \mathrm { I } _ { 2 } + 2 \mathrm { e } ^ { - } \rightarrow 2 \mathrm { I } ^ { - } & + 0.535 \ \mathrm {~Pb} ^ { 2 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Pb } & - 0.124 \ \mathrm { Al } ^ { 3 + } + 3 \mathrm { e } ^ { - } \rightarrow \mathrm { Al } & - 1.66 \ \mathrm { Mg } ^ { 2 + } + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Mg } & - 2.37 \ \mathrm {~K} ^ { + } + \mathrm { e } ^ { - } \rightarrow \mathrm { K } & - 2.93 \end{array}$$ A) Pb⁴⁺ B) Pb²⁺ C) K⁺ D) K E) Al

Accepted Answer

The answer of Use the table of standard reduction potentials...

Question 53

The work involved in moving exactly 1 mole of electrons through a potential difference of exactly 1 V is ________&#10;A) 1 J.&#10;B) 1 kJ.&#10;C) 96.5 J.&#10;D) 6.02 kJ.&#10;E) 96.5 kJ.

Accepted Answer

The answer of The work involved in moving exactly 1...

Question 54

The change in free energy for a reaction, $\Delta$G, depends on the stoichiometric coefficients used in writing the reaction, but cell potentials, E, do not depend on these coefficients. Which statement accounts for this difference?&#10;A) These quantities ($\Delta$G and E) are not related, so this difference is not an issue.&#10;B) The free-energy change is defined for general reactions, and the electromotive force is defined for electrochemical reactions, so this difference is not an issue.&#10;C) The difference is not relevant because the units differ: kJ/mol for $\Delta$G, and V for E.&#10;D) The change in free energy depends on both the reaction and the amount of material reacting, while the cell potential depends only on the cell composition.&#10;E) The statement is false. $\Delta$G does not depend on the stoichiometric coefficients.

Accepted Answer

The answer of The change in free energy for a...

Question 55

If the potential of a voltaic cell is +1.20 V, what is the free-energy change when one mole of electrons is transferred in the oxidation-reduction reaction?&#10;A) 116 kJ&#10;B) 1.20 kJ&#10;C) -1.20 kJ&#10;D) -116 kJ&#10;E) +602 kJ

Accepted Answer

The answer of If the potential of a voltaic cell...

Question 56

Which statement does not correctly describe a standard hydrogen electrode (SHE)? A) The SHE is assigned a standard reduction potential of exactly 1 V. B) 2H⁺(aq) + 2e^- $\rightarrow$ H₂(g) C) Pt|H₂(g, 1atm)|H⁺(aq, 1 M)|| D) ||H⁺(aq, 1 M)|H₂(g, 1atm)|Pt E) The SHE consists of a platinum electrode immersed in an acid solution and a stream of hydrogen gas.

Accepted Answer

The answer of Which statement does not correctly describe a...

Question 57

Using the following data, determine the standard cell potential E° for an electrochemical cell with zinc as the anode, lead as the cathode, and solutions of the respective ions. Zn(s) + Pb²⁺(aq) $\rightarrow$Zn²⁺(aq) + Pb(s) $$\begin{array} { l l } \text { Half-reaction } & \text { Standard Reduction Potential } \ \mathrm { Zn } ^ { 2 + } ( a q ) + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Zn } ( s ) & - 0.763 \ \mathrm {~Pb} ^ { 2 + } ( a q ) + 2 \mathrm { e } ^ { - } \rightarrow \mathrm { Pb } ( s ) & - 0.126 \end{array}$$ A) +1.274 V B) -0.637 V C) +0.889 V D) -0.889 V E) +0.637 V

Accepted Answer

The answer of Using the following data, determine the standard...

Question 58

Consider the following standard reduction potentials. $\begin{array} { | l | c | } \hline { \text { Reduction Half-Reaction } } & \mathbf { E } ^ { 0 } \text { (volts) } \\\hline \mathrm { Cr } ^ { 3 + } ( a q ) + 3 \mathrm { e } ^ { - } \longrightarrow \mathrm { Cr } ( s ) & - 0.74 \\\hline \mathrm { Cd } ^ { 2 } + ( a q ) + 2 \mathrm { e } ^ { - } \longrightarrow \mathrm { Cd } ( s ) & - 0.40 \\\hline \mathrm { Ni } ^ { 2 + } ( a q ) + 2 \mathrm { e } ^ { - } \longrightarrow \mathrm { Ni } ( s ) & - 0.23 \\\hline\end{array}$ The Cr/Cr³⁺ half-reaction can be paired with the other two to produce voltaic cells because ________

A) Cr is a powerful oxidizing agent.
B) Cr is a powerful reducing agent.
C) Cr³⁺ is a powerful oxidizing agent.
D) Cr³⁺ is a powerful reducing agent
E) Cd and Ni are readily oxidized.

Accepted Answer

The answer of Consider the following standard reduction potentials. \[\begin{array}...

Question 59

Using the following data, determine the standard cell potential $$E _ { \text { cell} } ^ { \circ }$$ for the electrochemical cell constructed using the following reaction, where zinc is the anode and lead is the cathode. $\mathrm{Zn}(s)+\mathrm{Pb}^{2+}(a q) \rightarrow \mathrm{Zn}^{2+}(a q)+\mathrm{Pb}(s)$&#10;$\begin{array}{lll}&#10;\text { Potential } & \text { Half-reaction } & \text { Standard Reduction } \&#10;& & \&#10;& \mathrm{Zn}^{2+}(a q)+2 \mathrm{e}^{-} \rightarrow \mathrm{Zn}(s) & -0.763 \&#10;& \mathrm{Ph}^{2+}(a a)+2 \mathrm{e}^{-} \rightarrow \mathrm{Ph}(s) & -0126&#10;\end{array}$&#10;A) +0.637 V&#10;B) -0.637 V&#10;C) +1.274 V&#10;D) -0.889 V&#10;E) +0.889 V

Accepted Answer

The answer of Using the following data, determine the standard...

Question 60

The spontaneous redox reaction in a voltaic cell has ________ A) a negative value of E_cell and a negative value of$\Delta$G. B) a positive value of E_cell and a positive value of $\Delta$G. C) a negative value of E_cell and a positive value of $\Delta$G. D) a positive value of E_cell and a negative value of $\Delta$G. E) a positive value of E_cell and a value of zero for $\Delta$G.

Accepted Answer

The answer of The spontaneous redox reaction in a voltaic...

Question 61

When a voltaic cell reaches equilibrium, ________ A) $E _ { \text {cell } } ^ { 0 }$= 0. B) E_cell = 0. C) E_cell = K. D) $E _ { \text {cell } } ^ { 0 }$= K. E) E_cell = Q.

Accepted Answer

The answer of When a voltaic cell reaches equilibrium, ________&#10;A)...

Question 62

Which statement does not correctly describe a &#34;dead&#34; battery with a voltage of 0?&#10;A) The free-energy change for the reaction now is 0.&#10;B) All the reactants have been converted into products.&#10;C) The products and reactants now are in equilibrium.&#10;D) Q = K&#10;E) cell potential = 0

Accepted Answer

The answer of Which statement does not correctly describe a...

Question 63

An electrochemical cell has both a silver anode and a silver cathode. The solutions of silver nitrate in contact with the electrodes have different concentrations. Which statement(s) correctly describe this cell?&#10;I. The cell potential is 0.&#10;II. The cell potential is negative.&#10;III. The cell potential is positive.&#10;IV. No electrons will flow through the external circuit.&#10;A) I only&#10;B) II only&#10;C) III only&#10;D) I and IV&#10;E) II and IV

Accepted Answer

The answer of An electrochemical cell has both a silver...

Question 64

Neuron cells generate electrical signals by concentration gradients across membranes. Assuming a potassium ion concentration of 0.003 M inside the cell, and a concentration of 0.135 M outside the cell, what is the electrical potential across the cell membrane? Body temperature is 310 K. The sign identifies the change in the electrical potential across the membrane and which way the ions flow.&#10;A) +204 mV&#10;B) +102 mV&#10;C) +10.0 mV&#10;D) -204 mV&#10;E) -136 mV

Accepted Answer

The answer of Neuron cells generate electrical signals by concentration...

Deck 19: Electrochemistry: the Quest for Clean Energy