The number of paramagnetic complexes among and , which involved hybridization is _____
JEE Chemistry 2025 Question with Solution
Answer
Correct answer:2
Step-by-step solution
Standard Method
Given: The complexes are and .
Find: The number of complexes that are both paramagnetic and involve hybridization.
A complex shows hybridization only when it is an inner orbital octahedral complex, which generally requires a strong field ligand to cause pairing.
Now check each complex:
- is a weak field ligand.
- Weak field gives , not .
- So this complex is not counted.
- is a strong field ligand.
- Pairing occurs, so the complex is .
- One unpaired electron remains, so it is paramagnetic.
- This complex is counted.
- is a strong field ligand.
- Pairing occurs, so the complex is .
- Two unpaired electrons remain, so it is paramagnetic.
- This complex is counted.
- From the solution, this is treated as giving hybridization.
- All electrons are paired, so it is diamagnetic.
- Hence this is not counted.
- is a weak field ligand.
- Weak field gives , not .
- So this complex is not counted.
- is a weak field ligand.
- Weak field gives , not .
- So this complex is not counted.
Therefore, the complexes that are both paramagnetic and involve hybridization are and .
Thus, the required number is .
Using ligand strength and spin state
Given: We must count only those complexes which satisfy both conditions:
- they are paramagnetic, and
- they involve hybridization.
Find: Total number of such complexes.
The key idea is:
- strong field ligands can produce inner orbital octahedral complexes, that is ,
- weak field ligands usually produce outer orbital octahedral complexes, that is .
Now apply this to the given set.
So exactly two complexes satisfy both requirements.
Therefore, the final answer is .
Common mistakes
Counting all paramagnetic complexes instead of counting only those that are both paramagnetic and is incorrect. First check the hybridization condition, then apply the magnetic condition.
Assuming every octahedral complex has hybridization is wrong. Weak field ligands such as and generally give outer orbital complexes instead.
Treating as diamagnetic is incorrect. For , the configuration with a strong field ligand still leaves one unpaired electron, so the complex remains paramagnetic.
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