Upload
trinhthuan
View
263
Download
7
Embed Size (px)
Citation preview
Worksheet #1 Redox Half Reactions and Reactions Define each1. Oxidation2. Reduction3. Oxidizing agent4. Reducing agent Write half reactions for each of the following atoms or ions. Label each as oxidation or reduction. 5. Al
6. S
7. O-2
8. Ba2+
9. N3-
10. Br2
11. P
12. Ca
13 Ga3+
14. S
15. H2
16. H+
17. F-
18. P3-
Balance each spontaneous redox equation. Identify the entities reduced and oxidized. State the reducing agent and the oxidizing agent. 19. Al & Zn2+
20. F2 & O2-
21. O2 & Ca 22. Al3+ & Li
Write the oxidation and reduction reactions for each redox reaction. The first one is done for you.
23. Fe2+ + Co ⇄ Co2+ + Fe
Oxidation: Co ® Co2+ + 2e-
Reduction: Fe2+ + 2e- ® Fe
24. 3 Ag+ + Ni ⇄ Ni3+ + 3 Ag
Oxidation:
Reduction:
25. Cu2+ + Pb ⇄ Pb2+ + Cu
Oxidation:
Reduction:
26. O2 + 2 Sn ⇄ O2- + 2 Sn2+
Oxidation:
Reduction:
27. Co2+ + 2 F- ⇄ Co + F2
Oxidation:
Reduction: 28. There are nine formulas for oxidizing agents from questions 19 to 28. List them all. Only
consider formulas that are on the left side of any equation. The first one is done for you.
Zn2+
29. There are nine formulas for reducing agents from questions 19 to 28. List them all. Only consider
formulas that are on the left side of any equation. The first one is done for you.
Al
Worksheet #2 Redox Half Reactions and Reactions 1. State the Oxidation Number of each of the elements that is underlined.
a) NH3 _____ b) H2SO4 _____
c) ZnSO3 _____ d) Al(OH)3 _____
e) Na _____ f) Cl2 _____
g) AgNO3 _____ h) ClO4- _____
i) SO2 _____ j) K2Cr2O4 _____
k) Ca(ClO3)2 _____ l) K2Cr2O7 _____
m) HPO32- _____ n) HClO _____
o) MnO2 _____ p) KClO3 _____
q) PbO2 _____ r) PbSO4 _____
s) K2SO4 _____ t) NH4+ _____
u) Na2O2 _____ v) FeO _____
w) Fe2O3 _____ x) SiO44- _____
y) NaIO3 _____ z) ClO3- _____
aa) NO3- _____ bb) Cr(OH)4 _____
cc) CaH2 _____ dd) Pt(H2O)5(OH)2+ _____
ee) Fe(H2O)63+ _____ ff) CH3COOH _____
2. What is the oxidation number of carbon in each of the following substances?
a) CO _____ b) C _____
c) CO2 _____ d) CO32- _____
e) C2H6 _____ f) CH3OH _____
3. For each of the following reactants, identify: the oxidizing agent, the reducing agent, the
substance oxidized and the substance reduced.a) Cu2+ (aq)+ Zn (s) → Cu(s) + Zn2+ (aq)
Substance oxidized _____ Substance reduced _____Oxidizing agent _____ Reducing agent _____
b) Cl2 (g) + 2 Na (s) → 2 Na+ (aq) + 2 Cl- (aq)
Substance oxidized _____ Substance reduced ____Oxidizing agent _____ Reducing agent _____
Worksheet # 3 Spontaneous and Non-spontaneous Redox Reactions Describe each reaction as spontaneous or non-spontaneous. 1. Au3+ + Fe3+ → Fe2+ + Au 2. Pb + Fe3+ → Fe2+ + Pb2+ 3. Cl2 + F- → F2 + 2Cl- 4. S2O8
2- + Pb → 2SO42- + Pb2+
5. Cu2+ + 2Br- → Cu + Br2 6. Sn2+ + Br2 → Sn4+ + 2Br- 7. Pb2+ + Fe2+ → Fe3+ + Pb 8. Can you keep 1 M HCl in an iron container? If the answer is no, write a balanced equation for
the reaction that would occur. 9. Can you keep 1 M HCl in an Ag container? If the answer is no, write a balanced equation for
the reaction that would occur. 10. Can you keep 1 M HNO3 in an Ag container? If the answer is no, write a balanced equation for
the reaction that would occur. (HNO3 consists of two ions H+ and NO3-)
11. Can you keep 1 M HNO3 in an Au container? If the answer is no, write a balanced equation for
the reaction that would occur. (Remember, HNO3 consists of two ions H+ and NO3-)
12. Circle each formula that is able to lose an electron
O2 Cl- Fe Na+
13. Determine the oxidation number for the element underlined.
PbSO4 __________ ClO3- __________
HP032- __________ Na2O2 __________
CaH2 __________ Al2(SO4)3 __________NaIO3 __________ C4H12 __________
14. Al3+ + Zn → Al + Zn2+
Substance oxidized _______ Oxidizing agent ________
15. Cr2O72- + ClO2
- → Cr3+ + ClO4-
Substance reduced ________ Oxidizing agent ________
16. State the Oxidation Number of each of the elements that is underlined.
a) NH3 __________ b) H2SO4 __________c) ZnCO3 __________ d) Al(OH)3 __________e) Na __________ f) Cl2 __________
17. Balance the redox equation using the half reaction method.
Al & AgNO3
18. Circle each formula that is able to lose an electron
O2 Cl- Fe Na+
Determine the oxidation number for the element underlined.19. PbSO4 __________20. ClO3
- __________21. HPO3
2- __________22. Na202 __________
23. CaH2 __________24. NaIO3 __________25. C4H12 __________26. Al2(SO4)3 __________27. Al3+ + Zn → Al + Zn2+
Substance oxidized __________ Oxidizing agent __________
28. Cr2O7
2- + ClO2- → Cr3+ + ClO4
-
Substance reduced __________ Oxidizing agent __________
29. O3 + H2O + SO2 → SO42- + O2 + 2H+
Substance oxidized__________ Reducing agent __________ 30. 3As2O3 + 4NO3
- + 7H2O + 4 H+ → 6H3AsO4 + 4NO
Substance reduced __________ Reducing agent __________
Worksheet # 4 Balancing Redox Reactions
Balance each of the following half-cell reactions. (In each case assume that the reaction takes place in
an ACIDIC solution.) Also, state whether the reaction is oxidation or reduction. 1. S2O3
2- → SO42-
2. MnO4
- → Mn2+
3. As → AsO4
3-
4. Cr3+ → Cr2O7
2-
5. Pb2+ → PbO2
6. SO4
2- → S
7. NO3
- → NO
8. NO3
- → NH4+
9. BrO3
- → Br2
Balancing Half Cell Reactions Balance in basic solution. 10. NO3
- → NO
11. MnO4
- → Mn2+
12. As → AsO4
3-
13. Cr3+ → Cr2O7
2-
14. Pb2+ → PbO2
15. SO4
2- → S
16. S2O3
2- → SO42-
17. NO3
- → NH4+
18. BrO3
- → Br2
19. Determine if each of the following changes is oxidation, reduction or neither.
SO32- → SO4
2- ________________
CaO → Ca ________________
CrO42- → Cr2O7
2- ________________
CrO42- → Cr3+ ________________
2I- → I2 ________________
IO3- → I2 ________________
MnO4- → Mn2+ ________________
ClO2- → ClO- ________________
20. Cr2O7
2- + Fe2+ → Cr3+ + Fe3+
Substance oxidized _____ Substance reduced _____Oxidizing agent _____ Reducing agent _____
Worksheet # 5 Balancing Redox Reactions in Acid and Basic Solution Balance each redox equation. Assume all are spontaneous. Use the half reaction method. 1. O2- + F2
2. Al + O2
3. K + Zn+2
Balance each half reaction in basic solution. 4. Cr2O7
2 - → Cr3+
5. NO → NO3-
6. SO42- → SO2
7. MnO2 → Mn2O3
Balance each redox reaction in acid solution using the half reaction method.
8. H2O2 + Cr2O72- → O2 + Cr3+
9. TeO3
2- + N2O4 → Te + NO3-
10. ReO4- + IO- → IO3
- + Re
11. PbO2 + I2 → Pb2+ + IO3
-
12. As → H2AsO4
- + AsH3
Balance each redox reaction in basic solution using the half reaction method.
13. O2 + Cr3+ → H2O2 + Cr2O7
2-
14. Te + NO3
- → TeO32- + N2O4
15. IO3
- + Re → ReO4- + IO-
16. Pb2+ + IO3
- → PbO2 + I2
17. Cr2O7
2- + Hg → Hg2+ + Cr3+
State of the change represents oxidation, reduction or neither. Use oxidation #s. Remember that if the oxidation # increases it means oxidation and when it decreases it mean reduction!
18. MnO2 → Mn2O3
19. NH3 → NO2
20. HClO4 → HCl + H2O 21. O2 → O2-
22. P2O5 → P4H10
Determine the oxidation number 23. H2S O4 22. HS O4
- 24. P 4 23. NaH 25. U O3 24. Na2O 2 26. U 2O5 25. P b SO4
Worksheet # 6 Review 1. Describe each in your own words
a) Oxidationb) Reductionc) Oxidizing agentd) Reducing agent
2. Write half reactions for each. Describe as oxidation or reduction. Circle all oxidizing agents.
a) Nab) Ca c) Al3+
d) F1-
e) N2
f) O2-
3. Write the reaction between the following: Use the half reaction method.
a) Ca + Al(NO3)3
b) Sn + AgNO3
c) Sn + Au(NO3)3
4. Circle each reducing agent: Cu Cu+ Al Al3+
5. Circle each oxidizing agent: F- F O2- O2
6. Ni+2 reacts with Mn, however, Al+3 does not react with Mn. Rank the oxidizing agents in order
of decreasing strength. Rank the reducing agents in order of decreasing strength. 7. Ag+ reacts with Pb, however, Ca+2 does not react with Pb. Rank the reducing agents in order of
decreasing strength. Rank the oxidizing agents in order of decreasing strength. 8. Cl2 reacts with Ag, however, Ag does not react with Mg+2. Rank the oxidizing agents in order
of decreasing strength. Rank the reducing agents in order of decreasing strength. 9. Ni+2 reacts with Mn, however, Al+3 does not react with Mn. Rank the reducing agents in order
of decreasing strength. Rank the oxidizing agents in order of decreasing strength. 10. Cl2 reacts with Br-, however, I2 does not react with Br-. Rank the oxidizing agents in order of
decreasing strength. Rank the reducing agents in order of decreasing strength.
Classify as oxidation, reduction or neither. 11. SO4
2- → S2-
12. MnO2 → MnO4
-
13. Cr2O7
2- → CrO42-
14. IO3
- → I2
15. Given the following lab data
SnCl2 & Ni SpontaneousNi(NO3)2 & Fe SpontaneousCr(NO3)3 & Fe Non spontaneous.
i) Write three balanced equations.
ii) Rank the oxidizing agents in decreasing order of strength.
iii) Rank the reducing agents in decreasing order of strength.
iv) Will SnCl2 react with Cr? Explain?
v) Will Fe2+ react with Sn? 16. Determine the oxidizing and reducing agent. Balance in acidic solution.
MnO4
- + H2S → S + MnO
17. Determine the oxidizing and reducing agent. Balance in acidic solution.
SO4
2- + Br2 → S2O32- + BrO3
-
18. Balance in basic solution MnO4
- + H2S → S + MnO
19. Describe as spontaneous or non-spontaneous. Use your reduction potential chart.
a) ZnCl2 & Cu b) CuCl2 & NaClc) Br2 & Fe2+ d) H2S & Al3+
20. Can you keep HCl in a Zn container? Explain? What about an Au container? Balance in basic solution 21. SO4
2- + Br2 → S2O32- + BrO3
-
Classify as an oxidizing agent, reducing agent or both based on its position on the table.State the Eo or voltage of its position. Some of these are both, so state two voltages and indicate that it can be an oxidizing and reducing agent. e.g. MnO4
- (in acid) oxidizing agent 1.51 V22. Br2 _________________ _________________23. Fe2+ _________________ _________________24. MnO4
- (water)_________________ _________________
25. Ni _________________ _________________26. Cr3+ _________________ _________________27. H2O _________________ _________________
Indicate as spontaneous or non-spontaneous.
28. MnO4- (Alkaline) & Fe2+
29. HNO3 & Ag 30. HCl & Mg
Write each oxidation and reduction half reaction for each question above. Determine the Eo for each. Calculate the Eo for the overall reaction. 34. 35. 36. Worksheet # 7 Electrochemical Cells 1. Oxidation is when electrons are . 2. Reduction is when electrons are . 3. The reducing agent undergoes . 4. The oxidizing agent undergoes . 5. A negative voltage means the reaction is . 6. In an electrochemical cell electrons exit the electrode which is . 7. In an electrochemical cell the reduction reaction is on the chart, while the
oxidation reaction is . 8. The cathode is the site of and the anode is the site of . 9. Anions migrate to the and cations migrate to the . 10. Anions have a charge and cations have a charge. Draw and completely analyze each electrochemical cell.
11. Zn / Zn(NO3)2 ll Cu / Cu(NO3)2 12. Ag / AgNO3 ll H2 / HCl Worksheet # 8 Electrolytic Cells 1. In an electrolytic cell, reduction occurs at the electrode and oxidation occurs at
the electrode. 2. If there are two possible reduction reactions, the one on the chart occurs. 3. For reduction, the chart is read from to . 4. For oxidation, the chart is read from to and the sign of the
voltage is . 5. If there are two possible oxidation reactions, the one on the chart occurs. 6. Corrosion of a metal is . 7. Electrolysis electrical energy. 8. Electrochemical cells electrical energy. 9. Electrolytic cells electrical energy. 10. What is the standard reference cell? Eo = v Draw and completely analyze each electrolytic cell.
11. Molten NaCl 12. Aqueous Na2SO4
13. Liquid K2O 14. 1.0 M LiI 15. 250.0 mL of 0.200 M MnO4
- reacts with excess SO3-2. How many grams of
MnO2 are produced? This is Chemistry 11 stoichiometry. 2MnO4
- + 3SO32- + H2O → 2MnO2 + 3SO4
2- + 2OH-
16. Determine the oxidation number for each underlined atom. MnO2 Cr2O7
2- IO3- C2O4
2- Al(NO3)3
17. Describe each term:
Salt bridge
Electrolyte
Anode
Cathode
Spontaneous
Electron affinity
18. What would happen if you used an aluminum spoon to stir a solution of FeSO4(aq)? Write a
reaction and calculate Eo. 19. Draw an electrochemical cell using Cu and Ag electrodes. 20. 250.0 mL of 0.500 M MnO4
- are required to titrate a 100.0 ml sample of SO3-2. Calculate the
[SO3-2] 2MnO4
- + 3SO32- + H2O → 2MnO2 + 3SO4
2- + 2OH- 21. How is the breathalyzer reaction used to determine blood alcohol content (you might need to
look this up in your textbook? 22. 2H+ + Mg → Mg2+ +H2
Oxidizing agent__________ Reducing agent_________ Worksheet # 9 Electrolytic, Electrochemical Cells & Application Determine the half reactions for each cell and the cell voltage or minimum theoretical voltage and overall equation. 1. Ag / Pb electrochemical cell.
Anode: Cathode: Anode reaction: Cathode reaction: Overall reaction: Voltage:
2. ZnCl2(l) electrolytic cell (electrowinning)
Anode: Cathode: Anode reaction: Cathode reaction: Overall reaction: MTV:
3. CuSO4(aq) electrolytic cell (electrowinning)
Anode: Cathode: Anode reaction: Cathode reaction: Overall reaction: MTV:
4. The electrolysis of 1M NaI (electrowinning)
Anode: Cathode: Anode reaction: Cathode reaction: Overall reaction: MTV:
5. The reaction needed to make Al. The electrolyte is and its phase is
(molten or aqueous).
To lower the mp. from 2000 oC to 800 oC is used.Anode: Cathode: Anode reaction: Cathode reaction: Overall reaction:
6. The reaction needed to electroplate a copper penny with silver.
Anode: Cathode: Anode reaction: Cathode reaction: Possible Electrolyte:
7. The reaction needed to nickel plate a copper penny.
Anode: Cathode: Anode reaction: Cathode reaction: Possible Electrolyte:
8. The reaction used in the electrorefining of lead.
Anode: Cathode:
Anode reaction: Cathode reaction: Possible Electrolyte:
Worksheet # 10 Electrolytic, Electrochemical Cells, Corrosion, & Cathodic Protection Determine the half reactions for each cell and the cell voltage or minimum theoretical voltage. 1. Zn / Mg electrochemical cell
Anode: Cathode: Anode reaction: Cathode reaction: Overall reaction: Voltage:
2. The electrolytic cell used to produce Al.
Electrolyte: Phase (aqueous or molten) Anode: Cathode: Anode reaction: Cathode reaction: Overall reaction:
3. The electrolysis KI(aq)
Anode: Cathode: Anode reaction: Cathode reaction: Overall reaction: MTV
4. The electrorefining of Pb
Anode: Cathode: Anode reaction: Cathode reaction:
5. Nickel plating a iron nail.
Anode: Cathode: Anode reaction: Cathode reaction: Electrolyte The -ve side of the power supply is connected to the
6. Draw an Ag/ Zn electrochemical cell. 7. Draw a KF(l) electrolytic cell.
8. Draw a KF(aq) electrolytic cell. 9. Draw a FeI2(aq) electrolytic cell. 10. Draw a Cd/Pb electrochemical cell. Cd is not on the reduction chart, however, the Cd
electrode gains mass and the total cell potential is 0.5 v. Determine the half-cell potential for Cd.
11. Write the overall reaction and describe the anode and cathode for a Zn/C, fuel, alkaline and
lead/acid cell. 12. 2HIO3 + 5H2SO3 → I2 + 5H2SO4 + H2O
oxidizing agent substance oxidized substance reduced reducing agent
13. What is the electrolyte in a fuel cell?
14. What is the fuel in a fuel cell? 15. Describe the differences and similarities between an electrolytic and electrochemical cell. 16. Describe and give two examples of electrowinning. 17. Describe and give one example of electrorefining. 18. List three metals that can be won from aqueous solution. 19. List three metals that cannot be won from aqueous solution. 20. List the electrolyte in each of the following.
Fuel cell, Alkaline batteryDry Cell (Leclanche) Lead acid battery
21. State two metals that can be used to cathodically protect Fe. Describe how they protect iron
from corrosion. 22. Write the half reaction that describes the corrosion of iron. 23. Write the half reaction that describes the reduction reaction that occurs when iron corrodes in
air and water. 24. Why does iron corrode faster in salt water?
25. Write the anode and cathode reaction in an electrolytic cell with a CaCl2(l) electrolyte. 26. Explain why you would choose Zn or Cu to cathodically protect iron? 27. Choose a suitable redox reactant to oxidize Cl- to ClO4
- in a redox titration. 28. Describe as an electrochemical or electrolytic cell:
a) Fuel cell b) Charging a car batteryc) Discharging a car batteryd) Ni platinge) Industrial Al productionf) Cl2 production
29. Write the anode and cathode reactions for each of the above processes. 30. Al and AgNO3(aq) are mixed and the surface of the Al darkens. List the two oxidizing agents in
decreasing strength. List the two reducing agents in decreasing strength.
31. Analyze This Label each anode and cathode. Write each anode and cathode reaction.Indicate the ion migration in each cell.Determine the initial cell voltage of the electrochemical cell.Determine the MTV for the electrolytic cell.Will electrolysis occur?Indicate electron flow.Indicate all electrodes that gain mass. Indicate all electrodes that lose mass.What happens to [NO3
-] in the Mg half-cell?What happens to the [Ag+] in the Ag half-cell?What happens to [Mg2+] in the Mg half-cell?What is the equilibrium electrochemical cell potential?What chemical is made at the Pt electrode on the right?What chemicals are made at the Pt electrode on the left?
1 M CuSO4
Pt Pt
1 M AgNO3
Mg Ag
1 M Mg(NO3)2
1.0 M KNO3
Quiz #1 Agents, Spontaneous Reactions, Oxidation #’s, and Strength 1. In a redox reaction, the species that loses electrons
A. is oxidizedB. is called the cathodeC. gains mass at the electrodeD. decreases in oxidation number
2. Which of the following is the strongest oxidizing agent?
A. Cu2+
B. Pb2+
C. Ni2+
D. Sn2+
3. Metallic platinum reacts spontaneously with Au3+
(aq) but does not react with Ag+(aq). The metals,
in order of increasing strength as reducing agents, are
A. Ag, Pt, AuB. Pt, Au, AgC. Au, Ag, PtD. Au, Pt, Ag
4. MnO4
- + 5Fe2+ + 8H+ → Mn2+ + 5Fe3+ + 4H2O The oxidizing agent in the reaction is
A. Fe2+
B. Fe3+
C. Mn2+
D. MnO4-
5. MnO4
- + 5Fe2+ + 8H+ → Mn2+ + 5Fe3+ + 4H2O During the reaction, electrons transfer from
A. Fe3+ to Fe2+
B. Fe2+ to MnO4-
C. MnO4- to Fe2+
D. MnO4- to Mn2+
6. As an element is oxidized, its oxidation number
A. increases as electrons are lostB. decreases as electrons are lostC. increases as electrons are gainedD. decreases as electrons are gained
7. A solution of 1.0 M Pb(NO3)2 will not react with a container made of
A. CuB. FeC. SnD. Zn
8. A spontaneous redox reaction occurs when a piece of iron is placed in 1.0 M CuSO4. The
reducing agent is
A. FeB. Cu2+
C. H2OD. SO4
2-
9. A substance is oxidized when it
A. loses protonsB. gains protonsC. loses electronsD. gains electrons
10. A strip of titanium, Ti, is placed in 1.0 M Sn(NO3)2. The shiny surface of the titanium darkens,
indication that a reaction has occurred. From this observation it may be concluded that
A. Ti2+ is a weaker reducing agent than Sn2+
B. Ti2+ is a weaker oxidizing agent than Sn2+
C. Ti2+ is a stronger reducing agent than Sn2+
D. Ti2+ is a stronger oxidizing agent than Sn2+
11. Consider the following redox reaction : Hg2+ + Cu → Hg + Cu2+ . In this reaction, Hg2+ is a
A. weaker reducing agent than Cu2+
B. weaker oxidizing agent than Cu2+
C. stronger reducing agent than Cu2+
D. stronger oxidizing agent than Cu2+
12. The species which gains electrons in a redox reaction
A. loses massB. is oxidizedC. is the oxidizing agentD. increases in oxidization number
13. Samples of Uranium, Vanadium and Yttrium (U, V, Y) were placed in solutions containing the
metallic ions U3+, V2+, and Y3+. The following observations were recorded.
Trial Ion Metal Observation
1 U3+ Y reaction2 V2+ U reaction3 V2+ Y reaction4 Y3+ V no reaction
The oxidizing agents from the strongest to the weakest are
A. V2+, U3+, Y3+
B. U3+, V2+, Y3+
C. Y3+, U3+, V2+
D. V2+, Y3+, U3+
Quiz #2 Agents, Spontaneous Reactions, Oxidation #’s, and Strength 1. Which of the following pairs of ions will react spontaneously in a solution?
A. Cu2+ and Fe2+
B. Pb2+ and Sn2+
C. Co2+ and Cr2+
D. Mn2+ and Cr2+
2. When NO2 reacts to form N2O4 the oxidation number of nitrogen
A. increases by 2B. increases by 4C. increases by 8D. does not change
3. Consider the following redox equation:
12H+(aq) + 2IO3
-(aq) + 10Fe2+
(aq) → 10Fe3+(aq) + I2(s) + 6H2O(l)
The reducing agent is
A. I2
B. H+
C. Fe2+
D. IO3-
4. The oxidation number of nitrogen increases in
A. NO3- → NO
B. N2O4 → NI3
C. NH3 → NH4+
D. NO2 → N2O5
5. Which of the following represents a balanced reduction half-reaction?
A. VO2 + 2H+ + 2e- → V2+ + H2OB. VO2 + H2 → V2+ + H2O + le-
C. VO2 + 2H+ + le- → V2+ + H2OD. VO2 + 4H+ + 2e- → V2+ + 2H2O
6. Consider the following half reaction: Sb2O3 + 6H+ + 6e- ⇄ 2Sb + 3H2O The oxidation number of antimony in Sb2O3
A. increases by 3B. increases by 6C. decreases by 3D. decreases by 6
7. Consider the following unbalanced half-reaction HClO2 ⇄ HClO The balanced half-reaction would have
A. 1 electron on the leftB. 1 electron on the rightC. 2 electrons on the leftD. 2 electrons on the right
8. The oxidation number of platinum in Pt(H2O)4
2+ is
A. +2B. 0C. +4D. +1/2
9. Consider the following half-reaction: BrO- → Br- (basic)
The balanced equation for the half-reaction is
A. BrO- + 2H+ + 2e- → Br- + H2OB. BrO- + 2H+ → Br- + H2O + 2e-
C. BrO- + H2O → Br- + 2OH- + 2e-
D. BrO- + H2O + 2e- → Br- + 2OH-
10. Consider the following redox reaction:
2MnO4- + 5CH3CHO + 6H+ → 5CH3COOH + 2Mn2+ + 3H2O
The species that loses the electron is
A. H2OB. MnO4
-
C. CH3CHOD. CH3COOH
11. Hydrogen has an oxidation number of –1 in
A. H2
B. NaHC. H2OD. KOH
12. Consider the following:
2NO3- + 4H+ + 2e- → N2O4 + 2H2O
This equation represents
A. reductionB. oxidationC. neutralizationD. decomposition
13. Which of the following half-reactions is balanced?
A. IO3- + 6H+ +5e- → I2 + 3H2O
B. IO3- + 6H+ + 4e- →1/2 I2 + 3H2O
C. IO3- + 6H+ → ½ I2 + 3H2O + 5e-
D. IO3- + 6H+ + 5e- → ½ I2 + 3H2O
14. Consider the following redox reaction: Al + MnO4
- + 2H2O →Al(OH)4- + MnO2
The chemical species being oxidized is
A. AlB. MnO4
-
C. Al(OH)4-
D. MnO2
15. Consider the following redox reaction:
6H+ + 6I- + ClO3- → 3I2 + 3H2O + Cl-
The reducing agent is
A. I-
B. I2
C. H+
D. ClO3-
16. Nitrogen has an oxidization number of zero in
A. N2
B. NO2
C. NH3
D. HNO3
17. When MnO4
- reacts to form Mn2+, the manganese in MnO4- is
A. reduced as its oxidation number increasesB. reduced as its oxidation number decreasesC. oxidized as its oxidation number increasesD. oxidized as its oxidation number decreases
18. Consider the following reaction:
2HNO3 + 3H2S → 2NO + 3S + 4H2O
The nitrogen in HNO3 undergoes
A. reductionB. oxidationC. electrolysisD. neutralization
19. The oxidation number in carbon in CaC2O4 is
A. +2B. +3C. +4D. +6
20. Consider the following redox reaction:
2Cr3+(aq) + 3Cl2(aq) + 7H2O(l) → Cr2O7
2-(aq) + 6Cl-
(aq) + 14H+(aq)
The species which loses electrons is
A. Cl2
B. Cr3+
C. H2OD. Cr2O7
2-
Quiz #3 Balancing Redox reactions- Acid & Base Cell Potentials 1. Consider the following overall reaction:
2Rh+ + Pb(s) → 2Rh(s) + Pb2+- E0 = 0.73 V
The E0 for the half-reaction Rh+ + e- ⇄ Rh is
A. -0.86 VB. -0.60 VC. +0.60 VD. +0.86 V
2. Which of the following systems would be correct if the zinc half-cell would have been chosen
as the standard instead of the hydrogen half-cell?
A. The reduction potentials of all the half-cells would remain unchangedB. The reduction potentials of all the half-cells would increase by 0.76 VC. The reduction potentials of all the half-cells would have positive values D. The
reduction potentials of the hydrogen half-cell decrease by 0.76 V 3. Three beakers contain 1.0 M CuCl2. A piece of metal is placed in each of the beakers
BEAKER SOLUTION METAL1 CuCl2 Zn2 CuCl2 Ag3 CuCl2 Ni
Reactions occur in
A. beaker 2 onlyB. beakers 1, 2, and 3C. beakers 1 and 2 onlyD. beakers 1 and 3 only
4. Consider the following redox reaction:
3SO2 + 3H2O + ClO3- → 3SO4
2- + 6H+ + Cl-
The reduction half-reaction is
A. ClO3
- + 6H+ → Cl- + 3H2O + 6e-
B. ClO3- + 6H+ + 6e- → Cl - + 3H2O
C. SO2 + 2H2O → SO42- + 4H+ + 2e-
D. SO2 + 2H2O + 2e- → SO42- + 4H+
5. What two substances are produced when Cr and 1.0 M MnO4
- react in a basic solution?
A. Mn2+ and Cr3+
B. MnO2 and Cr3+
C. Mn2+ and Cr2+
D. MnO2 and CrO42-
6. Bromine, Br2, will react spontaneously with
A. I-
B. I2
C. Cl-
D. Cl2
7. The substances H2O2, H3PO4 and H2SO3 in order of increasing strengths as oxidizing agents
are.
A H2O2, H3PO4, H2SO3 B. H2SO3, H3PO4, H2O2 C. H3PO4, H2SO3 , H2O2
D. H2O2,H2SO3 , H3PO4 8. Consider the following overall equation for an electrochemical cell:
3Ag+ + Cr → Cr3+ + 3Ag At standard conditions ,the initial cell voltage is
A. +0.06 VB. +0.39 VC. +1.21 VD. +1.54 V
9. A solution of 1.0 M Co(NO3)2 should be stored in a container made of
A. tinB. zincC. aluminumD. magnesium
10. A strong oxidizing agent has a
A. weak attraction for electronsB. strong attraction for electronsC. weak ability to become reducedD. strong ability to become oxidized
11. The two species which react spontaneously in acidic solutions are
A. IO3- and I2
B. SO42- and S
C. BrO3- and Br -
D. AuCl4- and Au
12. Consider the following redox reaction:
Co2+(aq) + 2Ag(s) → 2Ag+
(aq) + Co(s)
The reaction is
A. spontaneous and Eo is positive.B. spontaneous and Eo is negative.C. non-spontaneous and Eo is positive.D. non-spontaneous and Eo is negative
13. Referring to the data booklet, which of the following can act as an oxidizing agent but not as a
reducing agent?
A. ZnB. Cl-
C. Sn2+
D. Fe3+
14. Which equation represents a redox reaction?
A. Pb2+ + 2Cl- → PbCl2
B. CaO + CO2 → CaCO3
C. Mg + 2HCl → MgCl2 + H2
D. HCl + NaOH → NaCl + H2O 15. In a redox reaction, ClO- was converted to Cl- in a basic solution. The balanced half-reaction
for this process is
A. ClO- + H2O + 2e- → Cl- + 2OH-
B. ClO- + 2OH- → Cl- + 2e- + H2OC. ClO- + H2O → Cl- + 2e- + 2OH-
D. ClO- + 2OH- + 2e- → Cl- + H2O Quiz #4 Electrochemical Cells/Electrolytic Cells 1. In the electrochemical call above, the electrons flow from
A. zinc to lead and the mass of zinc increasesB. zinc to lead and the mass of lead increasesC. lead to zinc and the mass of zinc increasesD. lead to zinc and the mass of lead increases
2. The initial cell voltage is
A. -0.89 VB. -0.63 VC. +0.63 VD. +0.89 V
3. In an operating lead-zinc electrochemical cell shown above, the cathode
A. gains mass as anions are reducedB. loses mass as anions are reducedC. gains mass as cations are reducedD. loses mass as cations are reduced
voltmeter
1M Pb(NO3)2
Zn Pb
1M Zn(NO3)2
1.0 M KNO3
4. The equation for the half-reaction at the anode is
A. Zn2+ + 2e- → ZnB. Pb2+ + 2e- → PbC. Zn → Zn2+ + 2e-
D. Pb → Pb2+ + 2e-
5. The equation for the half-reaction at the cathode is
A. Zn2+ + 2e- → ZnB. Pb2+ + 2e- → PbC. Zn → Zn2+ + 2e-
D. Pb → Pb2+ + 2e-
6. The direction of electron flow in an electrochemical cell is from
A. anode to cathode through the external wireB. cathode to anode through the external wireC. anode to cathode through the external wire and back through the salt bridgeD. cathode to anode through the external wire and back through the salt bridge
7. Which of the following is formed at the anode during the electrolysis of 1.0 M NaI?
A. I2
B. O2
C. H2
D. Na 8. As this cell operates
A. Cl- is oxidized at the anodeB. Mg2+ is oxidized at the anodeC. Cl- is oxidized at the cathodeD. Mg2+ is oxidized at the cathode
9. In an operating electrochemical cell, the anions migrate
A. towards the anode through the wireMolten MgCl2
Pt Pt
Power Source
- +
B. towards the cathode through the wireC. towards the anode through the salt bridgeD. towards the cathode through the salt bridge
10. As the above electrochemical cell operates
A. nitrate ions migrate into the copper half-cellB. copper(II) ions migrate through the salt bridgeC. magnesium ions migrate through the salt bridgeD. potassium ions migrate into the magnesium half-cell
11. In the above electrochemical cell, the reaction at the anode is
A. Cu → Cu2+ + 2e-
B. Cu2+ + 2e- → CuC. Mg → Mg2+ + 2e-
D. Mg2+ + 2e- → Mg 12. In the above electrochemical cell, the initial voltage is
A. 2.03 VB. 2.52 VC. 2.71 VD. 2.89 V
13. Which of the following aqueous solutions produces H2(g) and O2(g) during electrolysis
A. 1.0 M KIB. 1.0 M CuI2
C. 1.0 M K2SO4
D. 1.0 M CuSO4
14. In the electrolysis of molten zinc chloride, the half-reaction at the anode is
A. Cl2 + 2e- → 2Cl-
B. 2Cl- → Cl2 + 2e-
voltmeter
1 M CuSO4
Mg Cu
1 M Mg(NO3)2
1.0 M KNO3
C. Zn2+ 2e- → ZnD. Zn → Zn2+ + 2e-
15. The initial cell voltage at 25oC is
A. -1.06 VB. -0.54 VC. +0.54 VD. +1.06 V
16. The balanced equation for the overall reaction is
A. Ni+(aq) + Ag(s) → Ag+
(aq) + Ni(s)
B. Ni(s) + Ag+(aq) → Ag(s) + Ni+
(aq)
C. Ni2+(aq) + 2Ag(s) → 2Ag+
(aq) + Ni(s)
D. Ni(s) + 2Ag+(aq) → 2Ag(s) + Ni2+
(aq)
17. This redox reaction occurs because
A. Ag(s) is a stronger oxidizing agent than Ni(s)
B. Ag(s) is a weaker reducing agent than Ni(s)
C. Ag+(aq) is a stronger reducing agent than Ni2
+(aq)
D. Ag+(aq) is a weaker oxidizing agent than Ni2
+(aq)
voltmeter
1 M AgNO3
Ni Ag
1 M Ni(NO3)2
1.0 M KNO3
voltmeter
Au Pb
1.0 M KNO3
18. The direction of the electron flow is
A. from Au to Pb through the wireB. from Pb to Au from the wireC. from Au to Pb through the salt bridgeD. from Pb to Au through the salt bridge
19. As the cell operates
A. NO3- and K+ will migrate toward the Pb half-cell
B. NO3- and K+ will migrate toward the Au half-cell
C. NO3- migrates toward the Pb half-cell and K+ will migrate toward the Au
D. NO3- migrates toward the Au half-cell and K+ will migrate toward the Pb
20. The initial voltage is
A. -1.37 VB. 0.00 VC. 1.37 VD. 1.63 V
21. Which of the following is a balanced half-reaction in base?
A. Cl2 + 3H2O → ClO3- + 6H+ + 5e-
B. Cl2 + 6OH- → ClO3- + 5e- + 3H2O
C. Cl2 + 6H2O → 2ClO3- + 12H+ + 10e-
D. Cl2 + 12OH- → 2ClO3- + 6H2O + 10e-
22. In which of the following unbalanced equations does chromium undergo oxidation?
A. Cr3+ → CrB. Cr3+ → Cr2+
C. Cr3+ → Cr2O72-
D. CrO42- → Cr2O7
2-
Quiz #5 Application of Cells 1. The corrosion of iron can be prevented by attaching a piece of zinc to the iron because the
A. iron acts as an anodeB. zinc reduces more readily than ironC. electrons flow from the zinc to the ironD. iron ions form more readily than zinc ions
2. An iron spoon is electroplated with copper. The equation representing the reduction
reaction is
A. Cu2+(aq) + 2e- → Cu(s)
B. Cu(s) → Cu2+(aq) + 2e-
C. Fe2+(aq) + 2e- → Fe(s)
D. Fe(s) → Fe2+(aq) + 2e-
3. In an operating zinc-copper electrochemical cell, the oxidizing agent
A. loses electrons at the anodeB. loses electrons to the cationsC. gains electrons at the cathodeD. gains electrons from the anions
4. An example of electro refining is the
A. extraction of aluminum from bauxiteB. purification of lead from an impure anodeC. recovery of zinc from a zinc sulphide solutionD. production of chlorine from a sodium chloride solution
5. Electroplating always involves the
A. oxidation of anionsB. reduction of cationsC. reduction at the anodeD. oxidation at the cathode
6. Hydrogen and oxygen react to provide energy in a
A. dry cellB. fuel cellC. alkaline cellD. lead-acid storage cell
7. En electrolytic process is used to purify impure lead. The electrodes are
ANODE CATHODEA. carbon impure leadB. pure lead carbonC. pure lead impure leadD. impure lead pure lead
8. In the cell below the half-reaction at the cathode is
A. Cu2+ + 2e- → Cu(s)
B. 2SO42- → S2O8
2- + 2e-
C. H2O → ½ O2(g) + 2H+ + 2e-
D. 2H2O + 2e- → H2(g) + 2OH-
9. In the electrolysis of molten PbBr2, the products at the anode and cathode are
ANODE (INERT)
CATHODE (INERT)
Br2 H2
O2 PbPb Br2
Br2 Pb 10. Under which conditions could an electrochemical cell provide 0.93V?
Cathode
A.B.C.D.
1.0 M CuSO4
Iron Key Pt
Power Source
- +
A.B.C.D.
AnodeCu MgMg CuAg PbPb Ag
11. The reduction reaction in the above electrochemical cell is
A. Pb2+ + 2e- → PbB. Pb → Pb2+ + 2e-
C. Ag+ + e- → AgD. Ag → Ag+ + e-
12. An industrial process involving electrolysis is the reduction of
A. water forming oxygen gasB. water forming hydrogen gasC. sea water forming chlorine gasD. sea water forming bromine liquid
13. To plate a nickel coin with copper
A. the nickel coin must be the cathodeB. the cathode must be made of copperC. the electrons must flow to the anodeD. the solution must contain nickel ions
14. Which of the following ions can be reduced from an aqueous solution
A. Ba2+
B. Al3+
C. Sn2+
D. Na+
15. The principal function of a fuel cell is to
A. produce fuelB. electrolyze fuelC. produce hydrogenD. produce electricity
16. If a piece of nickel is to be gold-plated using an electrolytic process, which half-reaction
occurs at the cathode?
A. Ni → Ni2+ + 2e-
B. Ni2+ + 2e- → NiC. Au → Au3+ + 3e-
D. Au3+ + 3e- → Au 17. Consider the following redox reaction
As2O3 + 2NO3- + 2H2O + 2H+ → 2H3AsO4 + N2O3
In this reaction, nitrogen
A. loses electrons and increases in oxidation numberB. gains electrons and increases in oxidation numberC. loses electrons and decreases in oxidation numberD. gains electrons and decreases in oxidation number
18. In an electrochemical cell, the cathode
A. is reducedB. loses massC. is the reducing agentD. is the site of reduction
19. When 1.0 M NaI is electrolyzed, bubbles of gas form on one electrode and a reddish-brown
substance forms on the other. The half-reaction at the cathode is
A. 2I- → I2 + 2e-
B. Na+ + e- → NaC. H2O + ½ O2 + 2H+ + 2e-
D. 2H2O +2e- → H2 + 2OH-
Quiz #6 Corrosion & Cathodic Protection Titration 1. Which of the following metals could be used to cathodically protect a sample of lead?
A. ironB. goldC. silverD. copper
2. A piece of iron can be prevented from corroding by
A. making it a cathodeB. placing it in an acidic solutionC. attaching a small piece of lead to itD. attaching a small piece of gold to it
3. To determine the [Fe2+] in a solution of FeSO4 by a redox titration, a suitable reagent would
be an acidified solution of
A. Cr3+
B. Mn2+
C. SO42-
D. Cr2O72-
4. As a metal corrodes,
A. it gains electronsB. it becomes reducedC. it acts as a reducing agentD. its oxidation number decreases
5. Which method will cathodically protect a piece of iron?
A. Paint the ironB. Cover the iron with greaseC. Attach a piece of lead tot he ironD. Attach a piece of magnesium to the iron
6. Corrosion of iron can be prevented by attaching a piece of
A. MnB. CuC. PbD. Sn
7. A student attempted to determine the Eo (volts) of the following half-reaction:
Pd2+ + 2e- → Pd Pd2+ reacts with Cu(s) but not with Hg(l). Based on the above, the Eo (volts) of a Pd half-cell is
A. less than 0.34 VB. greater than 1.50 VC. greater than 0.85 V but less than 1.50 VD. greater than 0.34 V but less than 0.85 V
8. Consider the following redox equation:
Br2 + SO2 + Na2SO4 + 2H2O → 2H2SO4 + 2NaBr Which of the following is gaining electrons?
A. Br2
B. SO2
C. H2OD. Na2SO4
9. The reaction that occurs when pieces of lead, zinc, copper and silver are placed in a solution
of Ni(NO3)2 is
A. Pb + Ni2+ → Pb2+ + NiB. Zn + Ni2+ → Zn2+ + NiC. Cu + Ni2+ → Cu2+ + NiD. 2Ag + Ni2+ → 2Ag+ + Ni
10. In the electrochemical cell above, the electrons flow from
A. copper to lead through the wireB. lead to copper through the wireC. copper to lead through the salt bridgeD. lead to copper through the salt bridge
11. In the electrochemical cell above, the initial Eo value is
voltmeter
1M Cu(NO3)2
Pb Cu
1M Pb(NO3)2
1.0 M KNO3
A. 0.03 VB. 0.21 VC. 0.29 VD. 0.47 V
12. A reaction that occurs during the corrosion of iron is
A. Fe + 3e- → Fe3+
B. Fe → Fe2+ + 2e-
C. Fe2+ + 2e- → FeD. Fe3+ + e- → Fe2+
13. Consider the following reaction
Zn(s) + 2Ag+(aq) → Zn2+
(aq) + 2Ag(s)
What volume of 0.500 M AgNO3 is required to react completely with 6.54 g of zinc?
A. 0.0131 LB. 0.0262 LC. 0.200 LD. 0.400 L
Redox Web Review
1) Which most readily gains electrons?
Cu Cu2+ Fe2+2 Zn2+ Au3+
2) Which most readily loses electrons?
Hg(l) Cu2+ Sn4+ Ba Al
Calculate the cell potentials or voltages (E0) Indicate spontaneity.
3. Cl2 + 2Br- → 2Cl- +Br2
4. 2MnO4- + 5Pb +16H+ → 2Mn2+ + 8H2O + 5Pb2+
5. Will AgNO3 react with Zn? Write a balanced redox reaction and calculate Eo
6. What would happen if you used an iron spoon to stir a solution of Al2(SO4)3(aq) ? Write a balanced redox reaction and calculate Eo.
7. What are the differences between an electrochemical cell and an electrolytic cell?
Electrochemical cell Electrolytic cell
8. What are the similarities between an electrochemical cell and an electrolytic cell?
Electrochemical cell or Electrolytic cell
9. State how you would determine each of the following in an electrochemical or electrolytic cell.
Electrochemical Cell Electrolytic CellThe site of reductionThe site of oxidationThe +ve electrodeThe -ve electrodeThe anions migrate to theThe cations migrate to theThe electrode that gains massThe electrode that loses massThe electrons flow from
10. Draw an operating electrochemical cell using an Al half-cell and a Mg half-cell. Label the parts of the electrochemical cell including the anode or cathode, and all reagents and materials used. Write the reactions and determine the E0.
11. Write the half reaction that occurs at each electrode during the electrolysis of aqueous
1.0 M NaI.
Anode :
Cathode :
What is the minimum required voltage for this process?
12. Write the half reaction that occurs at each electrode during the electrolysis of molten NaI.
Anode :
Cathode :
What is the minimum required voltage for this process?
13. Aluminum is produced industrially from aluminum oxide, Al2O3. Demonstrate your understanding of this process by
(i) Describing how the process is carried out,
(ii) Writing equations of the reactions involved in the process, and
(iii) Describing how the problem of the high melting point ofAl2O3 is overcome.
14. Consider the following redox data:
3V + 2Ga3+ → 3V2+ + 2Ga Eo = +0.64 V3V2+ + 2Al → 3V + 2Al3+ Eo = +0.46 V
Based on these observations, a student concludes that Ga+3 and Al will react spontaneously. List the oxidizing agents in order of decreasing strength. Write reduction reactions for each. Determine the strongest reducing agent. Determine if Ga+3 and Al will react spontaneously.
15. Balance the equation for the following half reaction occurring in acid solution:
V(s) → HV2O73-
16. Balance the following redox reaction occurring in basic solution:
MnO4- + C2O4
2- → MnO2 + CO2
17. 250.0 ml 0.200M MnO4- reacts with excess SO32-. How many grams of MnO2 are produced?
2MnO4- + 3SO3
2- +H2O → 2MnO2 +3SO42- + 2OH-
18. Determine the oxidation number for each bold atom.
MnO2 IO3- Cr2O7
2- C2O42- Al(NO3)3 NH4Cl NaH
HOOH NO3- H3PO4 Na2C2O4 I2 N2O3 Pt(H2O)4
2+
19. 250.0 mL of 0.500M MnO4- are required to titrate a 100.0 ml sample of SO3
-2. Calculate the [SO3
-2]
2MnO4- + 3SO3
2- +H2O → 2MnO2 + 3SO42-+ 2OH-
20. How is the breathalyzer reaction used to determine BAC? Write the reaction and describe how it works.
21. 2H+ + Mg → Mg2+ + H2
Determine the Oxidizing agent__________ and the Reducing agent_________
22. Choose a suitable redox reactant to oxidize Cl- toClO4- in a redox titration.
23. Describe as an electrochemical or electrolytic cell:
a) Fuel cellb) Charging a car batteryc) Discharging a car batteryd) Ni platinge) Industrial Al productionf) Cl2 productiong) Electrowinning
24) Which of the reactants is gaining electrons? Which of the reactants is the oxidizing agent?
Br2 + SO2 + Na2SO4 + H2O → 2H2SO4 + 2NaBr
25) A student studied the following reactions and she recorded:
Pd2+ + Cu → Pd + Cu2+ spontaneous
Pd2+ + Au → no reaction
Pd2+ + Hg → no reaction
Au3+ + Hg → Au + Hg2+ spontaneous
List the oxidizing agents from strongest to weakest. List the reducing agents from strongest to weakest. Predict if the reaction will occur.
Au3+ + Cu →
26) Match each type of electrolytic cell with the example cell.
Electrowinning A silver anode oxidizes & Ag reduces on a Cu cathodeElectroplating Pure Pb is reduced at the cathode while impure Pb oxidizes at the anodeElectrorefining Pure Al is reduced at the cathode from molten bauxite (Al2O3).
27. List the anode, cathode, anode reaction , cathode reaction, and electrolyte for each commercial electrochemical cell.
Cell anode anode reaction cathode cathode reaction electrolyteLeclanche or Common Dry CellAlkaline CellLead Storage or Car BatteryFuel Cell
28. Which of the above cells requires continuous input of O2 and H2 and is produced by Ballard Industries.
29. List the anode, cathode, anode reaction, cathode reaction, and electrolyte for each commercial electrolytic cell.
Cell anode anode reaction cathode cathode reaction electrolyteElectrolysis of Molten Al2O3
Electrolysis of Aqueous NaCl
Silver-plating a Cu platingElectrorefining pure Pb from impure Pb
30. Describe each term:
salt bridgeelectrolyteanodecathodespontaneouselectron affinitycationanionelectrochemical cellelectrolytic celloxidation numberelectrolysisoxidationreductionoxidizing agentreducing agentelectrodecorrosionelectrowinningelectrorefiningover potential effectfuel cell
31. Define corrosion of a metal, and illustrate your definition with reference to an example, using appropriate equations. Give TWO methods by which corrosion can be prevented and describe how each method works. The two methods must involve different chemical principles.
32. Which you would choose Zn or Cu to cathodically protect iron?
33. A2+ does not react with B, while C2+ reacts with B. Rank the oxidizing agents in decreasing order of strength. Rank the reducing agents in decreasing order of strength. Will A2+ react with C?
34. Write half reactions for each using the reduction table and list the half-cell potential.
Half Reaction Eo
oxidation of water
oxidation of water in acid
reduction of water
reduction of water in alkaline
oxidation of H2 in water
oxidation of H2 in acid
oxidation of H2 in base
reduction of Cr2O72- in acid
reduction of HBr
35. Completely analyze the following electrochemical cell.
The anode reaction is:
The cathode reaction is:
The electrons flow from ___ to ___
The ions that migrate to the Zn electrode are:
The ions that migrate to the Cu electrode are:
The initial voltage of this cell is:
The voltage of this cell once equilibrium is reached is:
Describe the change in [Cu+2] in the Cu half cell
Describe the change in [NO3-1] in the Zn half cell
voltmeter
1 M Cu(NO3)2
Zn Cu
1 M Zn(NO3)2
1.0 M KNO3
36. Completely analyze the following electrochemical cell.
The anode reaction is:
The cathode reaction is:
The electrons flow from ___ to ___
The ions that migrate to the Pt electrode are:
The ions that migrate to the Cu electrode are:
The intial voltage of this cell is:
The voltage of this cell once equilibrium is reached is:
Describe the change in [Cu+2] in the Cu half cell
Describe the change in [NO3-1] in the H+/H2 half cell
37. Completely analyze the following electrolytic cell.
1.0 M KNO3
H2(g)
voltmeter
1 M Cu(NO3)2
Cu
1 M HCl
Anode Reaction
Cathode Reaction
Chemicals produced at the anode
Chemicals produced at the cathode
The electrons flow from __to __
The chemical used to lower the mp is:
Which electrode is the anode ?
38. Completely analyze the following electrolytic cell. Note that the electrodes are not inert and because of that, the anode might oxidize.
Molten Al2O3
C C
Power Source
- +
Cu Cu
Power Source
- +
Anode Reaction
Cathode Reaction
Chemicals produced at the anode
Chemicals produced at the cathode
The electrons flow from
The MTV
Which electrode is the anode ?
Electrochemistry Practice Test # 1
1. The following represents the process used to produce iron from iron III oxide:
Fe2O3 + 3CO → 2Fe + 3CO2 What is the reducing agent in this process?
A. FeB. COC. CO2
D. Fe2O3
2. Consider the following reaction: 2HNO2 + 2I- + 2H+ → 2NO + I2 +2H2O
The oxidation number for each nitrogen atom
A. increases by 1B. increases by 2
Cu Cu
C. decreases by 1D. decreases by 2
3. Which of the following reactions is spontaneous?
A. 2I- + Ag → Ag+ + I2
B. Co2+ + Cu → Co + Cu2+
C. Cu2+ + Pb → Pb2+ + CuD. Ni2+ + 2Ag → 2Ag+ + Ni
4. Consider the following redox reaction for a lead-acid storage cell:
Pb + PbO2 + 4H+ + 2SO42- → 2PbSO4 + 2H2O
The balanced, reduction half reaction is
A. Pb + SO42- → 2PbSO4 + 2e-
B. Pb + 2H+ + SO42- → PbSO4 + 2H2O + 2e-
C. PbO2 + 4H+ + SO42- + 2e- → PbSO4 + 2H2O
D. PbO2 + 2SO42 + 2H2O + 2e- → PbSO4 + 2OH-
5. Consider the following reaction: Cd2+
(aq) + Zn(s) → Cd(s) Zn2+(aq)
The potential for the reaction is +0.36 V. What is the reduction potential for the cadmium ion?
A. -1.12 VB. -0.40 VC. +0.40 VD. +1.12 V
6. Which of the following involves a nonspontaneous redox reaction?
A. fuel cellB. electroplatingC. redox titrationD. carbon dry cell
7. Consider the following redox reaction:
2MnO4- + 16H+ + 5Sn2+ → 2Mn2+ + 8H2O + 5Sn4+
In a redox titration, 0.60 mole of KMnO4 reacts completely with a solution of Sn(NO3)2. How many moles of Sn(NO3)2 were present in the solution?
A. 0.024 molesB. 0.060 molesC. 1.5 molesD. 0.30 moles
8. Which of the following is not a redox reaction?
A. Cu + Br2 → CuBr2
B. CO + H2O → CO2 + H2
C. CH4 + H2O → CO2 + 2H2OD. NaOH + HCl → NaCl + H2O
9. What is the minimum voltage required to form nickel from an aqueous solution of NiI2 using
inert electrodes?
A. 0.26 VB. 0.28 VC. 0.54 VD. 0.80 V
10. What substances are formed at the anode and cathode during electrolysis of molten sodium
chloride?
Anode Cathode
A. O2 H2
B. Na Cl2
C. Cl2 H2
D. Cl2 Na 11. A solution containing an unknown cation reacts spontaneously with both zinc and copper. The
unknown cation is
A. 1.0 M H+
B. 1.0 M Ag+
C. 1.0 M Sr2+
D. 1.0 M Mn2+
12. Which of the following half-reactions are balanced?
A. ClO- + H2O + e- → Cl2 + 2OH-
B. 2ClO- + H2O + 2e- → Cl2 + 3OH-
C. 2ClO- + 2H2O + 2e- → Cl2 + 4OH-
D. 2ClO- + 2H2O → Cl2 + 4OH- + 2e- 13. Which of the following is a spontaneous redox reaction?
A. Ag+ + I- → AgIB. Ag+ + Fe2+ → Ag + Fe3+
C. 3Ag+ + Au → 3Ag + Au3+
D. 2Ag+ + Ni2+ → 2Ag + Ni
14. Salting the roads during the winter increases the amount of corrosion of cars. The is because the salt
A. reacts with the ironB. provides an electrolyteC. acts as a reducing agent D. acts as an oxidizing agent
Consider the following electrochemical cell for the next five questions. 15. The half-reaction that occurs at the anode is
A. Ni → N2+ + 2e-
B. Ni2+ + 2e- → NiC. Cu → Cu2+ + 2e-
D. Cu2+ + 2e- → Cu 16. The half-reaction that occurs at the cathode is
A. Ni → N2+ + 2e-
B. Ni2+ + 2e- → NiC. Cu → Cu2+ + 2e-
D. Cu2+ + 2e- → Cu 17. The cell potential or Eo is
A. 0.41 VB. 0.78 VC. 0.34 VD. 0.60 V
18. The following ions migrate to the Cu electrode
A. K+ Cu2+ Ni2+
B. Cu2+ Ni2+
C. Cl- NO3-
D. Cl- NO3- 2e-
19. The electrons flow
A. through the salt bridge from Cu to Ni
voltmeter
1M Ni(NO3)21M Cu(NO3)2
1.0 M KCl
Cuu
Ni
B. through the salt bridge from Cu to NiC. through the wire from Cu to NiD. through the wire from Ni to Cu
20. Which of the following will not react spontaneously with 1.0 M HCl?
A. tinB. lithiumC. mercuryD. magnesium
21. Which of the following can be produced by electrolysis from a 1.0 M aqueous solution
containing its ion?
A. nickelB. sodiumC. aluminumD. magnesium
22. In order for an electrolytic cell to operate, it must have
A. a voltmeter.B. a salt bridge.C. a power supply.D. an aqueous solution.
23. In the electrolysis of molten ZnCl2 using carbon electrodes, the reaction that occurs at the
anode is
A. Zn → Zn2+ + 2e-
B. Zn2+ + 2e- → ZnC. 2Cl- → Cl2 + 2e-
D. Cl2 + 2e- → 2Cl-
24. In the electrolysis of molten zinc chloride, the half-reaction at the anode is
A. Cl2 + 2e- → 2Cl-
B. 2Cl- → Cl2 + 2e-
C. Zn2+ + 2e- → ZnD. Zn → Zn2+ + 2e-
25. The corrosion of iron can be prevented by attaching a piece of
A. MnB. CuC. Pb
D. Sn 26. The oxidation number of carbon in CaC2O4 is
A. +2B. +3C. +4D. +6
27. To plate a nickel coin with copper,
A. the nickel coin must be the cathode.B. the cathode must be made out of copperC. the electrons must flow to the anodeD. the solution must contain nickel ions
Consider the following electrochemical cell for the next five questions. 28. Which of the following statements apply to this electrochemical cell?
I Electrons flow through the wire toward the copper electrode.II The copper electrode increases in mass.III Anions move toward the Zn half-cell.
A. I and II onlyB. I and III onlyC. II and III onlyD. I, II, and III
29. The balanced equation for the overall reaction is
A. Zn + Cu2+ → Cu + Zn2+
B. Cu + Zn2+ → Zn + Cu2+
C. Zn2+ + Cu → Cu2+ + ZnD. Cu + Zn → Zn + Cu
30. At equilibrium the voltage of the above cell is
voltmeter
1M Zn(NO3)21M Cu(NO3)2
1.0 M KNO3
Cuu
Zn
A. -1.10 VB. 0.00 VC. +0.42 VD. +1.10 V
31. This redox reaction occurs because
A. Zn is a stronger oxidizing agent than CuB. Zn is a stronger reducing agent than Cu,C. Cu is a stronger oxidizing agent than ZnD. Zn2+ is a weaker reducing agent than Cu2+
32. The initial cell voltage at 25 oC is
A. -1.10 VB. +1.10 VC. +0.91 VD. +0.86 V
33. Consider the following redox reaction: Co2+
(aq) + 2Ag(s) ⇋ 2Ag+(aq) + Co(s)
The reaction is
A. spontaneous and Eo is positiveB. spontaneous and Eo is negativeC. non-spontaneous and Eo is positiveD. non-spontaneous and Eo is negative
34. When MnO4
- reacts to form Mn2+, the manganese in MnO4- is
A. reduced as its oxidation number increasesB. reduced as its oxidation number decreasesC. oxidized as its oxidation number increasesD. oxidized as its oxidation number decreases
35. The electrolyte used in the alkaline battery is
A. KClB. NaOHC. H2SO4
D. KOH 36. The electrolyte used in an automobile battery is
A. KClB. NaOHC. H2SO4
D. KOH 37. The anode used in the commercial production of Aluminum is
A. CB. PtC. AlD. Al2O3
38. The anode and cathode used in the electrorefining of impure lead to pure lead are
Anode Cathode
A. Pure Pb Impure PbB. Impure Pb Pure PbC. Pb2+ PbD. Pb Pb2+
39. The anode in the LeClanche or common dry cell is
A. CB. ZnC. MgD. KOH
40. Which of the following are electrolytic cells
I Electro winningII ElectroplatingIII Charging a car batteryIV Fuel cell
A. I and II onlyB. I, II, and III onlyC. II and II onlyD. I, II, III, and IV
Subjective 1. Balance the following in basic solution.
MnO4- + C2O4
2- → MnO2 + CO2 (basic) 2. Consider the electrolysis of 1.0 M H2SO4 using platinum electrodes.
a) Write the oxidation half-reaction
b) Write the reduction half-reaction
c) Write the overall reaction and determine the minimum theoretical voltage required. 3. Consider the following diagram for the electro refining of lead.
a) On the diagram, label the anode and cathode. b) Write the formula for a suitable electrolyte c) Write the equation for the reduction half-reaction. 4. Describe two chemically different methods that can be used to prevent corrosion of iron and
explain why each method works.
Method 1:
Explanation:
Method 2:
Explanation:
5. The data below were obtained in a redox titration of a 25.00 mL sample containing Sn2+ ions
using 0.125 M KMnO4 according to the following reaction:2MnO4
- + 16H+ + 5Sn2+ → 2Mn2+ + 8H2O + 5Sn4+
Calculate the [Sn2+]
Volume of KMnO4 used (mL)
Pure Pb Impure Pb
Power Source
Trial 1 Trial 2 Trial 3
Initial burette reading 2.00 13.80 24.55Final burette reading 13.80 24.55 35.32
6. A student wanted to electroplate a coin with copper.
a) Identify a suitable anode
b) Identify an appropriate electrolyte
c) To with battery terminal (positive or negative) should the coin be connected? 7. Consider the electrolysis of molten magnesium chloride with Cu electrodes (Cu electrodes are not inert and can oxidize: Cl-, or Cu will oxidize)
a) Identify the product at the anode.
b) Write the equation for the reduction half-reaction.
c) Write the equation for the overall reaction. 8. Completely analyze the following electrochemical cell.
1.0 M KNO3
Snnn
Mn
voltmeter
Chemistry 12 Electrochemistry Practice Test 2
voltmeter
1M Ni(NO3)21M Pd(NO3)2
1.0 M KCl
Pd Ni
1. As the cell operates, the electrons flow from the nickel electrode to the palladium electrode.
The reaction occurring at the anode is
A Pd → Pd2+ + 2e-
B Ni → Ni2+ + 2e-
C Pd2+ + 2e- → PbD Ni2+ + 2e- → Ni
2. As the cell operates,
A both the K+ and the NO3- migrate into the nickel half-cell
B both the K+ and the NO3- migrate into the palladium half-cell
C the K+ migrates into the nickel half-cell and the NO3- migrates into the palladium half-
cellD the K+ migrates into the palladium half-cell and the NO3
- migrates into the nickel half-cell
3. The initial cell voltage is 1.21 V. The reduction potential of Pd2+ is
A -1.21 VB -.95 VC +0.95D +1.21 V
4. What substances are formed at the anode and cathode during electrolysis of molten sodium chloride, NaCl(l)?
Anode Cathode
A O2 H2
B Na Cl2
C Cl2 H2
D Cl2 Na 5. Consider the following electrolytic cell:
In the cell above
A I- migrates to the anode and gains electronsB I- migrates to the cathode and loses electronsC Na+ migrates to the anode and loses electronsD Na+ migrates to the cathode and gains electrons
6. Which of the following are necessary for electroplating to occur using an electrolytic cell?
I Two electrodesII A metal being reducedIII A direct current power supply
A I and II onlyB I and III onlyC II and III onlyD I, II, and III
7. A fuel cell consumes H2 and O2 gas, uses a KOH electrolyte, and produces electricity. The reaction at the anode is
A 2H+ + 2e- → H2
B 1/2O2 + 2H+ + 2e- → H2O
Molten NaI(l)
InertElectrode
InertElectrode
Power Source+ -
C 4OH- → O2 + 2H2O + 4e-
D H2 + 2OH- → 2H2O + 2e-
8. A student investigating redox reactions recorded the following results:
V2+ + Te2- → no reactionU4+ + Te2- → U3+ + Te
Based on these results, the strengths of the oxidizing agents, arranged from strongest to weakest, are
A V2+ Te U4+
B U4+ Te V2+
C U3+ Te2- V2+
D V2+ Te2- U3+
9. What is the minimum voltage required to form nickel from an aqueous solution of NiI2 using inert electrodes?
A 0.26 VB 0.28 VC 0.54 VD 0.80 V
10.
Which of the following occurs as the cell operates?
A the Zn electrode is reduced and increases in massB the Zn electrode is reduced and decreases in massC the Zn electrode is oxidized and increases in massD the Zn electrode is oxidized and decreases in mass
11. Which of the following reactants would produce an E0 of +0.63 V?
A Ag+ + I2
B Pb2+ + ZnC Mg2+ + CaD Zn2+ + Mn
12. The concentration of Fe2+
(aq) can be determined by a redox titration using
A KBrB SnCl2
C KMnO4 (basic)D KBrO3 (acidic)
13. Which of the following will oxidize Fe2+?
A I2(s)
B Ni(s)
C Zn(s)
D Br2(l)
voltmeter
1M Ni(NO3)21M Zn(NO3)2
1.0 M KNO3
Zn Ni
14. The oxidation number of carbon in C2O42- is
A +3B +4C +5D +6
15. Consider the following reaction: 3As2O3 + 4NO3- + 7H2O → 6H3AsO4 + 4NO
The oxidizing agent is
A H+
B H2OC NO3
-
D AsO3
16. When W2O5 is converted to WO2 in a redox reaction, the W has been
A reduced since its oxidation number has increasedB reduced since its oxidation number has decreasedC oxidized since its oxidation number has increasedD oxidized since its oxidation number has decreased
17. Consider the following:
I WaterII Oxygen gasIII Nitrogen
At 25oC, a piece of iron rusts in the presence of
A I onlyB III onlyC I and II onlyD II and III only
18. Which of the following represents a redox reaction?
A H2CO3 → H2O + CO2
B CuS + H2 → H2S + CuC AgNO3 + NaCl → AgCl + NaNO3
D 2HCl + Na2SO3 → 2NaCl + H2SO3
19. The following reaction occurs in an electrochemical cell:
3Cu2+ + Cr → 2Cr3+ + 3CuThe Eo for the cell is
A 0.40 VB 0.75 VC 1.08 VD 2.50 V
20. During the corrosion of magnesium, the anode reaction is
A Mg → Mg2+ + 2e-
B Mg2+ + 2e- → MgC 4OH- → O2 + 2H2O + 4e-
D O2 + 2H2O + 4e- → 4OH-
21. A molten binary salt, ZnCl2, undergoes electrolysis. The cathode reaction is
A Zn → Zn2+ + 2e-
B 2Cl- → Cl2 + 2e-
C Cl2 + 2e- → 2Cl-
D Zn2+ + 2e- → Zn 22. Which of the following represents a redox reaction?
A CaCO3 → CaO + CO2
B SiCl4 + 2Mg → Si + 2MgCl2
C 2NaOH + H2SO4 → 2H2O + Na2SO4
D AgBr + 2S2O32- → Ag(S2O3)2
3- + Br-
23. The process of applying an electric current through a cell to produce a chemical change
is called
A corrosionB ionizationC hydrolysisD electrolysis
24. A student investigating redox reactions recorded the following results:
V2+ + Te2- → no reaction
U4+ + Te2- → U3+ + Te
Based on these results, the strengths of the oxidizing agents, arranged from strongest to weakest, are
A V2+ Te U4+
B U4+ Te V2+
C U3+ Te2- V2+
D V2+ Te2- U3+
25. A spontaneous redox reaction occurs when Sn2+ is mixed with
A I2
B CuC H2SD Ag2S
26. Consider the redox reaction: 2BrO3
- + 10Cl- + 12H+ → Br2 + 5Cl2 + 6H2Othe oxidation half-reaction ivolved in this reaction is
A 2Cl- → Cl2 + 2e-
B 2H+ → H2 + 2e-
C BrO3- + 6H+ + 5e- → ½ Br2 + 3H2O
D BrO3- + 6H+ → ½ Br2 + 3H2O + 5e-
27. Which of the following is not a redox reaction?
A Cu + Br2 → CuBr2
B CO + H2O → CO2 + H2
C CH4 + O2 → CO2 + 2H2OD NaOH + HCl → NaCl + H2O
28. During the electrolysis of 1.0 M Na2SO4, the reaction at the cathode is
A Na+ + 1e- → NaB 2SO4
2- → S2O82- + 2e-
C 2H2O → O2 + H+ + 4e-
D 2H2O + 2e- → H2 + 2OH-
29. An oxidizing agent will cause which of the following changes?
A PtO2 → PtO
B PtO3 → PtO2
C Pt(OH)2 → PtD Pt(OH)2
2+ → PtO3
30. Consider the overall reaction of the nickel-cadmium battery:
NiO2(s) + Cd(s) + 2H2O(l) → Ni(OH)2(s) + Cd(OH)2(s)
Which of the following occurs at the anode as the reaction proceeds?
A Cd loses 2e- and forms Cd(OH)2(s)
B Cd gains 2e- and forms Cd(OH)2(s)
C NiO2 loses 2e- and forms Ni(OH)2(s)
D NiO2 gains 2e- and forms Ni(OH)2(s)
31. Which of the following can be produced by the electrolysis from a 1.0 M aqueous solution containing its ions?
A nickelB sodiumC aluminumD magnesium
32. In the electrolysis of molten ZnCl2 using carbon electrodes, the reaction that occurs at the anode is A Zn → Zn2+ + 2e-
B Zn2+ + 2e- → ZnC 2Cl- → Cl2 + 2e-
D Cl2 + 2e- → 2Cl-
33. In order for the electrolytic cell to operate, it must have
A a voltmeterB a salt bridgeC a power supplyD an aqueous solution
Subjective 1. a) Indicate in the blank spaces on the following chart whether or not a reaction will
occur when the metals are added to the aqueous ions.
Pd Rh Pt
Pd2+
Rh2+ no reaction no reaction
Pt2+ reaction reaction
b) List the oxidizing agents in order of strongest to weakest 2. Consider the following reaction for the formation of rust:
Fe(s) + ½ O2(g) + H2O(l) → Fe(OH)2
Describe and explain two methods, using different chemical principles, to prevent the
formation of rust.
a)
b) 3. Consider the following redox reaction:
H2Se + SO42- + 2H+ → Se + H2SO3 + H2O
Calculate the Eo for the reaction.
4. Balance the following redox reaction in basic solution:
Au + Cl- + O2 → AuCl4- + OH-
5. Draw and label a simple electrolytic cell capable of electroplating and inert electrode with
silver. 6.
a) During the production of magnesium metal from seawater, magnesium ions are first precipitated from seawater as magnesium hydroxide. The magnesium hydroxide is neutralized by hydrochloric acid, producing magnesium chloride. Write the neutralization reaction.
b) The salt produced, magnesium chloride, is dried melted and undergoes electrolysis. Write the reaction at each electrode.
Anode
Cathode
c) It is not possible to remove Mg from a 1.0 M solution. Explain why?
d) Write the anode reaction if Cu electrodes were used instead of C. 7. Consider the following diagram in the electro refining of lead:
Pure Pb Impure Pb
Power Source
a) On the diagram above, label the anode and cathode. b) Write the formula for a suitable electrolyte. c) Write the equation for the reduction half-reaction. d) Write the anode reaction