Which of the following acts as a strong reducing agent? (Atomic numbers: Ce = , Eu = , Gd = , Lu = )
- A
- B
- C
- D
Which of the following acts as a strong reducing agent? (Atomic numbers: Ce = , Eu = , Gd = , Lu = )
Correct answer:C
Standard Method
Given: The ions are , , and .
Find: Which species acts as a strong reducing agent.
A reducing agent donates electrons to other substances and itself gets oxidized. So we must identify the ion that can most readily lose an electron.
The relevant oxidation change is
Thus, has a strong tendency to donate an electron and therefore acts as a strong reducing agent.
Therefore, the correct option is C, that is .
Oxidation State Stability View
Given: The question compares lanthanoid ions in different oxidation states.
Find: The strongest reducing agent among them.
The strength of a reducing agent depends on how easily it gets oxidized. Among the given species, is less stable than and therefore readily undergoes oxidation to the state.
In contrast, and are already in stable states, while more readily gains an electron and acts as an oxidizing agent.
Hence, the strong reducing agent is , so the correct option is C.
Confusing a reducing agent with an oxidizing agent. tends to gain electrons and become , so it acts as an oxidizing agent, not a reducing agent. Check whether the species donates or accepts electrons.
Assuming every lanthanoid ion in the state is reactive in the same way. Species like and are comparatively stable in the state, so they do not readily donate electrons. Focus on oxidation-state stability.
Ignoring the special stability trend of europium. is readily oxidized to , which is why it is a strong reducing agent. Always compare the tendency to move to a more stable oxidation state.
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