Open Question
List the following reducing agents in order of increasing strength under standard-state conditions: Al(s), Pb(s), Fe(s).
Ch.19 - Electrochemistry
Chapter 19, Problem 78
Consider the following substances: Fe(s), PbO2(s), H+(aq), Al(s), Ag(s), Cr2O72-(aq). (d) Which substances can be oxidized by Cu2+(aq)? Which can be reduced by H2O2(aq)?
Verified step by step guidance1
insert step 1> Identify the oxidation and reduction potentials for each substance involved in the reactions.
insert step 2> Compare the standard reduction potential of Cu^{2+}(aq) with the standard reduction potentials of the substances to determine which can be oxidized by Cu^{2+}(aq).
insert step 3> Compare the standard reduction potential of H2O2(aq) with the standard reduction potentials of the substances to determine which can be reduced by H2O2(aq).
insert step 4> Use the standard reduction potential table to find the E° values for each half-reaction.
insert step 5> Determine the feasibility of the redox reactions by checking if the potential difference is positive for the reactions involving Cu^{2+}(aq) and H2O2(aq).
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Oxidation and Reduction
Oxidation and reduction are chemical processes involving the transfer of electrons between substances. Oxidation refers to the loss of electrons, while reduction involves the gain of electrons. In redox reactions, one species is oxidized and another is reduced, which is essential for understanding how substances interact, particularly in the context of electrochemistry.
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Oxidation and Reduction Reactions
Standard Reduction Potentials
Standard reduction potentials are values that indicate the tendency of a species to gain electrons and be reduced. These potentials are measured under standard conditions and are used to predict the direction of redox reactions. A higher standard reduction potential means a greater likelihood of being reduced, which helps determine which substances can be oxidized or reduced in a reaction.
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Reactivity of Metals and Nonmetals
The reactivity of metals and nonmetals plays a crucial role in determining their ability to undergo oxidation or reduction. Metals, particularly those that are more electropositive, tend to lose electrons easily and can be oxidized, while nonmetals often gain electrons. Understanding the reactivity series helps predict which substances can be oxidized by Cu2+ or reduced by H2O2 in the given question.
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Related Practice
Textbook Question
Consider the following substances: I2(s), Fe2+(aq), Cr2O72-(aq). Which is the strongest oxidizing agent? Which is the weakest oxidizing agent?
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Textbook Question
Consider the following substances: Fe2+(aq), Sn2+(aq), I-(aq). Identify the strongest reducing agent and the weakest reducing agent.
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Textbook Question
Consider the following substances: Fe(s), PbO2(s), H+(aq), Al(s), Ag(s), Cr2O72-(aq). (a) Look at the E° values in Appendix D, and classify each substance as an oxidizing agent or a reducing agent.
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Textbook Question
The following cell reactions occur spontaneously:
(c) Which of the three cell reactions delivers the highest voltage?
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Textbook Question
The following cell reactions occur spontaneously: (a) Arrange the following reduction half-reactions in order of decreasing tendency to occur:
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