Which of the following cannot function as an oxidising agent?
- A
- B
- C
- D
Which of the following cannot function as an oxidising agent?
Correct answer:A
Standard Method
Given: We must identify which species cannot act as an oxidising agent.
Find: The option that cannot undergo reduction further and therefore cannot behave as an oxidising agent.
An oxidising agent accepts electrons and gets reduced. So a species already having its central atom in the lowest possible oxidation state cannot act as an oxidising agent.
For , nitrogen is already in its lowest possible oxidation state, . Therefore, it cannot be reduced further.
Species such as and are well-known oxidising agents because Br and Mn are in high oxidation states and can gain electrons by reduction.
Therefore, the substance that cannot function as an oxidising agent is . Hence, the correct option is A.
The solution incorrectly labels the option letter as C, but the worked conclusion identifies , which corresponds to option A in the given options.
Oxidation State Basis
Given: The options are , , , and .
Find: Which one cannot act as an oxidising agent.
An oxidising agent must be capable of accepting electrons. That means the relevant atom should be able to move to a lower oxidation state.
In , nitrogen has oxidation state , which is the minimum oxidation state of nitrogen. Since it cannot go below , it cannot accept electrons further.
Thus cannot act as an oxidising agent, whereas the other species contain atoms in relatively higher oxidation states and can undergo reduction.
Therefore, the correct option is A.
Mistake: Choosing a species with a high negative charge as automatically non-oxidising without checking oxidation state. Why wrong: charge alone does not decide oxidising behaviour. What to do instead: determine the oxidation state of the relevant atom and check whether further reduction is possible.
Mistake: Trusting the printed option letter in the solution without matching it to the actual option text. Why wrong: the solution contains a letter mismatch. What to do instead: use the worked conclusion and map it to the listed options carefully.
Mistake: Confusing oxidising agent with reducing agent. Why wrong: an oxidising agent gets reduced by accepting electrons, while a reducing agent gets oxidised by donating electrons. What to do instead: first identify whether the species must gain or lose electrons in the process.
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