Consider the following reduction processes:
The tendency to act as reducing agent decreases in the order:
- A
- B
- C
- D
Consider the following reduction processes:
The tendency to act as reducing agent decreases in the order:
Correct answer:C
Standard Method
Given: The standard reduction potentials are
Find: The decreasing order of tendency to act as reducing agent.
A species acts as a stronger reducing agent if it has a greater tendency to undergo oxidation. This corresponds to a more negative standard reduction potential.
Comparing the given values:
Therefore, the reducing strength decreases as:
Hence, the correct option is C.
Why more negative potential means stronger reducing agent
Given: Standard reduction potentials of the corresponding couples are provided.
Find: Which species among , , , and is the stronger reducing agent in decreasing order.
A reducing agent donates electrons, so it itself gets oxidized. If the reduction potential of a couple is more negative, the reverse oxidation process is more favorable.
Thus:
So the required order is:
Therefore, the correct option is C.
Students often treat a more positive standard reduction potential as indicating a stronger reducing agent. That is wrong because reducing agents are judged by their tendency to get oxidized, so the relevant trend is the reverse of reduction tendency. Use more negative to identify stronger reducing agents.
A common mistake is comparing the oxidized forms such as or instead of the actual reducing agents and . The species on the reduced side of each half-cell is the one that can act as the reducing agent in the reverse direction.
Some students arrange the order directly from numerical value without noting that the question asks for decreasing reducing strength, not increasing reduction tendency. First relate reducing power to oxidation tendency, then reverse the interpretation of reduction potentials.
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