Electrochemistry

Quiz

•

Chemistry

•

12th Grade

•

Practice Problem

•

Hard

Gareth Hart

Used 2+ times

FREE Resource

10 questions

Show all answers

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Use the data in the table below to answer this question. The most powerful oxidising agent in the table is

Mn²⁺(aq)

Zn(s)

MnO₄^-(aq)

Zn²⁺(aq)

Answer explanation

MnO4- (aq) is the most powerful oxidising agent due to its high oxidation state of manganese, allowing it to readily accept electrons compared to the other options listed.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which change to a hydrogen electrode has no effect on the electrode potential?

the concentration of the hydrogen ions

the pressure of the hydrogen

the surface area of the platinum electrode

the temperature of the acid

Answer explanation

The surface area of the platinum electrode does not affect the electrode potential because it does not change the concentration of reactants or products in the electrochemical reaction, unlike the other factors listed.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Use the data in the table below to answer this question. Which one of the following statements is not correct?

Fe²⁺(aq) can reduce acidified MnO₄^-(aq) to Mn²⁺(aq)

Cr₂O₇^2-(aq) can oxidise acidified Fe²⁺(aq) to Fe³⁺(aq)

Zn(s) can reduce acidified Cr₂O₇^2-(aq) to Cr²⁺(aq)

Fe²⁺(aq) can reduce acidified Cr³⁺(aq) to Cr²⁺(aq)

Answer explanation

Fe2+(aq) cannot reduce Cr3+(aq) to Cr2+(aq) because Cr3+ is already in a lower oxidation state than Cr2+. Therefore, this statement is incorrect.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Some electrode potential data are shown.

Zn²⁺(aq) + 2 e⁻ → Zn(s)
E^ɵ = − 0.76 V
Pb²⁺(aq) + 2 e⁻ → Pb(s)
E^ɵ = − 0.13 V
Which is a correct statement about this cell?

Electrons travel in the external circuit from zinc to lead.

The concentration of lead (II) ions increases.

The maximum EMF of the cell is 0.89 V

Zinc is deposited.

Answer explanation

In the cell, zinc has a lower reduction potential than lead, meaning zinc will oxidize and lose electrons. Therefore, electrons travel from zinc to lead in the external circuit.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

The E^Θ values for two electrodes are shown.
Fe²⁺(aq) + 2 e^– → Fe(s) E^Θ= –0.44 V
Cu²⁺(aq) + 2 e^– → Cu(s) E^Θ= +0.34 V
What is the EMF of the cell Fe(s)|Fe²⁺(aq)||Cu²⁺(aq)|Cu(s)?

+0.78 V

+0.10 V

−0.10 V

−0.78 V

Answer explanation

The EMF of the cell is calculated using EΘ(cell) = EΘ(cathode) - EΘ(anode). Here, Cu is the cathode (+0.34 V) and Fe is the anode (-0.44 V). Thus, EMF = 0.34 - (-0.44) = 0.34 + 0.44 = +0.78 V.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which ion cannot catalyse the reaction between iodide (I^–) and peroxodisulfate (S₂O₈^2–)?
Use the data below to help you answer this question.

Co²⁺

Cr²⁺

Fe²⁺

Fe³⁺

Answer explanation

Cr²⁺ cannot catalyse the reaction because it does not effectively participate in redox reactions with iodide and peroxodisulfate, unlike Co²⁺, Fe²⁺, and Fe³⁺, which can facilitate electron transfer.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

The following cell has an EMF of +0.46 V. Which statement is correct about the operation of the cell?

Metallic copper is oxidised by Ag⁺ ions.

The silver electrode has a negative polarity.

The silver electrode gradually dissolves to form Ag⁺ ions.

Electrons flow from the silver electrode to the copper electrode
via an external circuit.

Answer explanation

In this cell, Ag+ ions oxidize metallic copper, meaning copper loses electrons while Ag+ gains them. This confirms that metallic copper is oxidized by Ag+ ions, making this statement correct.

Create a free account and access millions of resources

Create resources

Host any resource

Get auto-graded reports

Continue with Google

Continue with Email

Continue with Classlink

Continue with Clever

or continue with

Microsoft

Apple

Others

By signing up, you agree to our Terms of Service & Privacy Policy

Already have an account?

Similar Resources on Wayground

13 questions

Ionic and Covalent Bonding

Quiz

•

KG - Professional Dev...

10 questions

Alkynes and Benzene

Quiz

•

12th Grade

11 questions

OCR Chemistry A – 2.1.3(a,e,f,g) AoS and Ideal Gases

Quiz

•

12th Grade

10 questions

CHEMISTRY 1

Quiz

•

12th Grade

10 questions

Ulangan Harian Penyetaraan Reaksi Redoks

Quiz

•

12th Grade

10 questions

Biomolecules

Quiz

•

12th Grade

12 questions

Pretes Reaksi Redoks dan Elektrokimia

Quiz

•

12th Grade

10 questions

Le Châtelier’s Principle

Quiz

•

12th Grade

Popular Resources on Wayground

10 questions

Honoring the Significance of Veterans Day

Interactive video

•

6th - 10th Grade

9 questions

FOREST Community of Caring

Lesson

•

1st - 5th Grade

10 questions

Exploring Veterans Day: Facts and Celebrations for Kids

Interactive video

•

6th - 10th Grade

19 questions

Veterans Day

Quiz

•

5th Grade

14 questions

General Technology Use Quiz

Quiz

•

8th Grade

25 questions

Multiplication Facts

Quiz

•

5th Grade

15 questions

Circuits, Light Energy, and Forces

Quiz

•

5th Grade

19 questions

Thanksgiving Trivia

Quiz

•

6th Grade

Discover more resources for Chemistry

20 questions

Naming Ionic Compounds

Quiz

•

10th - 12th Grade

27 questions

Unit 4/5 Covalent Bonding/Nomenclature

Quiz

•

10th - 12th Grade

21 questions

Naming Covalent and Ionic Compounds

Lesson

•

9th - 12th Grade

20 questions

Atomic Structure

Quiz

•

10th - 12th Grade

20 questions

Types of Chemical Reactions

Quiz

•

9th - 12th Grade

20 questions

electron configurations and orbital notation

Quiz

•

9th - 12th Grade

25 questions

ERHS Chem Chapter 4 - Periodic Table

Quiz

•

10th Grade - University

60 questions

Periodic Trends Exam Review

Quiz

•

9th - 12th Grade

Electrochemistry

10 questions

Use the data in the table below to answer this question. The most powerful oxidising agent in the table is

MnO4- (aq) is the most powerful oxidising agent due to its high oxidation state of manganese, allowing it to readily accept electrons compared to the other options listed.

Which change to a hydrogen electrode has no effect on the electrode potential?

The surface area of the platinum electrode does not affect the electrode potential because it does not change the concentration of reactants or products in the electrochemical reaction, unlike the other factors listed.

Use the data in the table below to answer this question. Which one of the following statements is not correct?

Fe2+(aq) cannot reduce Cr3+(aq) to Cr2+(aq) because Cr3+ is already in a lower oxidation state than Cr2+. Therefore, this statement is incorrect.

Some electrode potential data are shown.

Zn²⁺(aq) + 2 e⁻ → Zn(s)
E^ɵ = − 0.76 V
Pb²⁺(aq) + 2 e⁻ → Pb(s)
E^ɵ = − 0.13 V
Which is a correct statement about this cell?

In the cell, zinc has a lower reduction potential than lead, meaning zinc will oxidize and lose electrons. Therefore, electrons travel from zinc to lead in the external circuit.

The E^Θ values for two electrodes are shown.
Fe²⁺(aq) + 2 e^– → Fe(s) E^Θ= –0.44 V
Cu²⁺(aq) + 2 e^– → Cu(s) E^Θ= +0.34 V
What is the EMF of the cell Fe(s)|Fe²⁺(aq)||Cu²⁺(aq)|Cu(s)?

The EMF of the cell is calculated using EΘ(cell) = EΘ(cathode) - EΘ(anode). Here, Cu is the cathode (+0.34 V) and Fe is the anode (-0.44 V). Thus, EMF = 0.34 - (-0.44) = 0.34 + 0.44 = +0.78 V.

Which ion cannot catalyse the reaction between iodide (I^–) and peroxodisulfate (S₂O₈^2–)?
Use the data below to help you answer this question.

Cr²⁺ cannot catalyse the reaction because it does not effectively participate in redox reactions with iodide and peroxodisulfate, unlike Co²⁺, Fe²⁺, and Fe³⁺, which can facilitate electron transfer.

The following cell has an EMF of +0.46 V. Which statement is correct about the operation of the cell?

In this cell, Ag+ ions oxidize metallic copper, meaning copper loses electrons while Ag+ gains them. This confirms that metallic copper is oxidized by Ag+ ions, making this statement correct.

In this question consider the data below. The e.m.f. of the cell Ag(s) | Ag⁺(aq) || Pb²⁺(aq) | Pb(s) is

The cell reaction involves Ag and Pb. The standard reduction potentials are E°(Ag+/Ag) = +0.80 V and E°(Pb2+/Pb) = -0.13 V. The e.m.f. is calculated as E°cell = E°(Ag) - E°(Pb) = 0.80 - (-0.13) = -0.93 V.

In this question consider the data below. The e.m.f. of the cell Pt(s) | H₂(g) | H⁺(aq) || Ag⁺(aq) | Ag(s) would be increased by

Increasing the concentration of Ag+(aq) shifts the equilibrium towards the right, increasing the e.m.f. according to the Nernst equation. This enhances the cell's potential, making it the correct choice.

A disproportionation reaction occurs when a species M⁺ spontaneously undergoes simultaneous oxidation and reduction.
2M⁺(aq) → M²⁺(aq) + M(s)
The table below contains E data for copper and mercury species. Using these data, which one of the following can be predicted?

Cu(I) has a standard reduction potential that allows it to undergo disproportionation, forming Cu(II) and elemental Cu. Hg(I) does not have a favorable potential for this reaction, thus only Cu(I) undergoes disproportionation.

Create a free account and access millions of resources

Similar Resources on Wayground

Popular Resources on Wayground

Discover more resources for Chemistry

Electrochemistry

10 questions

Use the data in the table below to answer this question. The most powerful oxidising agent in the table is

MnO4- (aq) is the most powerful oxidising agent due to its high oxidation state of manganese, allowing it to readily accept electrons compared to the other options listed.

Which change to a hydrogen electrode has no effect on the electrode potential?

The surface area of the platinum electrode does not affect the electrode potential because it does not change the concentration of reactants or products in the electrochemical reaction, unlike the other factors listed.

Use the data in the table below to answer this question. Which one of the following statements is not correct?

Fe2+(aq) cannot reduce Cr3+(aq) to Cr2+(aq) because Cr3+ is already in a lower oxidation state than Cr2+. Therefore, this statement is incorrect.

Some electrode potential data are shown. Zn2+(aq) + 2 e− → Zn(s)Eɵ = − 0.76 VPb2+(aq) + 2 e− → Pb(s)Eɵ = − 0.13 VWhich is a correct statement about this cell?

In the cell, zinc has a lower reduction potential than lead, meaning zinc will oxidize and lose electrons. Therefore, electrons travel from zinc to lead in the external circuit.

The EΘ values for two electrodes are shown.Fe2+(aq) + 2 e– → Fe(s) EΘ= –0.44 VCu2+(aq) + 2 e– → Cu(s) EΘ= +0.34 VWhat is the EMF of the cell Fe(s)|Fe2+(aq)||Cu2+(aq)|Cu(s)?

The EMF of the cell is calculated using EΘ(cell) = EΘ(cathode) - EΘ(anode). Here, Cu is the cathode (+0.34 V) and Fe is the anode (-0.44 V). Thus, EMF = 0.34 - (-0.44) = 0.34 + 0.44 = +0.78 V.

Which ion cannot catalyse the reaction between iodide (I–) and peroxodisulfate (S2O82–)?Use the data below to help you answer this question.

Cr²⁺ cannot catalyse the reaction because it does not effectively participate in redox reactions with iodide and peroxodisulfate, unlike Co²⁺, Fe²⁺, and Fe³⁺, which can facilitate electron transfer.

The following cell has an EMF of +0.46 V. Which statement is correct about the operation of the cell?

In this cell, Ag+ ions oxidize metallic copper, meaning copper loses electrons while Ag+ gains them. This confirms that metallic copper is oxidized by Ag+ ions, making this statement correct.

In this question consider the data below. The e.m.f. of the cell Ag(s) | Ag+(aq) || Pb2+(aq) | Pb(s) is

The cell reaction involves Ag and Pb. The standard reduction potentials are E°(Ag+/Ag) = +0.80 V and E°(Pb2+/Pb) = -0.13 V. The e.m.f. is calculated as E°cell = E°(Ag) - E°(Pb) = 0.80 - (-0.13) = -0.93 V.

In this question consider the data below. The e.m.f. of the cell Pt(s) | H2(g) | H+(aq) || Ag+(aq) | Ag(s) would be increased by

Increasing the concentration of Ag+(aq) shifts the equilibrium towards the right, increasing the e.m.f. according to the Nernst equation. This enhances the cell's potential, making it the correct choice.

A disproportionation reaction occurs when a species M+ spontaneously undergoes simultaneous oxidation and reduction. 2M+(aq) → M2+(aq) + M(s)The table below contains E data for copper and mercury species. Using these data, which one of the following can be predicted?

Cu(I) has a standard reduction potential that allows it to undergo disproportionation, forming Cu(II) and elemental Cu. Hg(I) does not have a favorable potential for this reaction, thus only Cu(I) undergoes disproportionation.

Create a free account and access millions of resources

Similar Resources on Wayground

Popular Resources on Wayground

Discover more resources for Chemistry

Some electrode potential data are shown.

Zn²⁺(aq) + 2 e⁻ → Zn(s)
E^ɵ = − 0.76 V
Pb²⁺(aq) + 2 e⁻ → Pb(s)
E^ɵ = − 0.13 V
Which is a correct statement about this cell?

The E^Θ values for two electrodes are shown.
Fe²⁺(aq) + 2 e^– → Fe(s) E^Θ= –0.44 V
Cu²⁺(aq) + 2 e^– → Cu(s) E^Θ= +0.34 V
What is the EMF of the cell Fe(s)|Fe²⁺(aq)||Cu²⁺(aq)|Cu(s)?

Which ion cannot catalyse the reaction between iodide (I^–) and peroxodisulfate (S₂O₈^2–)?
Use the data below to help you answer this question.

In this question consider the data below. The e.m.f. of the cell Ag(s) | Ag⁺(aq) || Pb²⁺(aq) | Pb(s) is

In this question consider the data below. The e.m.f. of the cell Pt(s) | H₂(g) | H⁺(aq) || Ag⁺(aq) | Ag(s) would be increased by

A disproportionation reaction occurs when a species M⁺ spontaneously undergoes simultaneous oxidation and reduction.
2M⁺(aq) → M²⁺(aq) + M(s)
The table below contains E data for copper and mercury species. Using these data, which one of the following can be predicted?