Which of the following ions is the strongest oxidizing agent? (Atomic Number of Ce = , Eu = , Tb = , Lu = )
- A
- B
- C
- D
Which of the following ions is the strongest oxidizing agent? (Atomic Number of Ce = , Eu = , Tb = , Lu = )
Correct answer:C
Standard Method
Given: The ions are , , and .
Find: The strongest oxidizing agent.
An oxidizing agent accepts electrons and gets reduced. So the strongest oxidizing agent will be the ion that has the greatest tendency to gain an electron and move to a more stable oxidation state.
From the solution analysis:
Thus, among the given ions, has the highest tendency to accept an electron.
Therefore, the correct option is C.
Charge and stability comparison
Given: Strength of an oxidizing agent depends on how readily the species accepts electrons.
Find: Which ion among the given lanthanide ions is the strongest oxidizing agent.
A higher positive charge generally increases electron-accepting tendency. Also, if reduction leads to a more stable oxidation state, the oxidizing character becomes stronger.
Evaluate the ions one by one:
Hence, the ion with the greatest tendency to be reduced is .
Therefore, the strongest oxidizing agent is , so the correct option is C.
Choosing as the oxidizing agent. This is wrong because more readily gets oxidized to , so it behaves as a reducing agent. Instead, check which ion tends to gain an electron.
Assuming every ion with a positive charge is automatically a strong oxidizing agent. This is wrong because stability of the oxidation state also matters. Compare both charge and the stability gained after reduction.
Ignoring the special stability of lanthanide electronic configurations such as filled or especially stable states. This leads to incorrect comparison among , , and . Always consider which reduced form is more stable.
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