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Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such that
- a)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)
- b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)
- c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)
- d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)
Correct answer is option 'A'. Can you explain this answer?
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Extent of crystal field splitting in octahedral complexes of the given...
Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)
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Extent of crystal field splitting in octahedral complexes of the given...
To determine the extent of crystal field splitting in octahedral complexes of the given metals with a particular weak field ligand, we need to consider the electronic configurations and the nature of the metal ions.
a) Fe(iii), Cr(iii), Rh(iii), Ir(iii)
The electronic configurations of Fe(iii), Cr(iii), Rh(iii), and Ir(iii) are as follows:
- Fe(iii): [Ar] 3d^5
- Cr(iii): [Ar] 3d^3
- Rh(iii): [Kr] 4d^6
- Ir(iii): [Xe] 4f^14 5d^6
Fe(iii) has five d-electrons, which means it has a high-spin configuration. Cr(iii) has three d-electrons, which also results in a high-spin configuration. Rh(iii) and Ir(iii) have six d-electrons, which can accommodate low-spin configurations.
In an octahedral complex, the weak field ligand does not cause significant splitting of the d-orbitals. This is because the weak field ligand can only interact weakly with the metal ion, resulting in a small crystal field splitting.
The splitting of the d-orbitals in an octahedral complex is determined by the crystal field splitting parameter, Δo. In this case, since we have a weak field ligand, Δo will be small for all the given metals.
Therefore, the extent of crystal field splitting in octahedral complexes of Fe(iii), Cr(iii), Rh(iii), and Ir(iii) with a particular weak field ligand will be similar for all the metals. Hence, option 'A' is the correct answer.
In summary:
- The extent of crystal field splitting in octahedral complexes of Fe(iii), Cr(iii), Rh(iii), and Ir(iii) with a particular weak field ligand is similar for all the metals.
- The weak field ligand does not cause significant splitting of the d-orbitals in an octahedral complex.
- The electronic configurations of Fe(iii), Cr(iii), Rh(iii), and Ir(iii) determine the number of d-electrons and the possibility of high-spin or low-spin configurations.
a) Fe(iii), Cr(iii), Rh(iii), Ir(iii)
The electronic configurations of Fe(iii), Cr(iii), Rh(iii), and Ir(iii) are as follows:
- Fe(iii): [Ar] 3d^5
- Cr(iii): [Ar] 3d^3
- Rh(iii): [Kr] 4d^6
- Ir(iii): [Xe] 4f^14 5d^6
Fe(iii) has five d-electrons, which means it has a high-spin configuration. Cr(iii) has three d-electrons, which also results in a high-spin configuration. Rh(iii) and Ir(iii) have six d-electrons, which can accommodate low-spin configurations.
In an octahedral complex, the weak field ligand does not cause significant splitting of the d-orbitals. This is because the weak field ligand can only interact weakly with the metal ion, resulting in a small crystal field splitting.
The splitting of the d-orbitals in an octahedral complex is determined by the crystal field splitting parameter, Δo. In this case, since we have a weak field ligand, Δo will be small for all the given metals.
Therefore, the extent of crystal field splitting in octahedral complexes of Fe(iii), Cr(iii), Rh(iii), and Ir(iii) with a particular weak field ligand will be similar for all the metals. Hence, option 'A' is the correct answer.
In summary:
- The extent of crystal field splitting in octahedral complexes of Fe(iii), Cr(iii), Rh(iii), and Ir(iii) with a particular weak field ligand is similar for all the metals.
- The weak field ligand does not cause significant splitting of the d-orbitals in an octahedral complex.
- The electronic configurations of Fe(iii), Cr(iii), Rh(iii), and Ir(iii) determine the number of d-electrons and the possibility of high-spin or low-spin configurations.
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Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer?
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Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer?.
Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer?.
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Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer?, a detailed solution for Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer? has been provided alongside types of Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice Extent of crystal field splitting in octahedral complexes of the given metal with particular weak field ligand are such thata)Fe(iii) < Cr(iii) < Rh(iii) < Ir(iii)b)Cr(iii) < Fe(iii) < Rh(iii) < Ir(iii)c)Ir(iii) < Rh(iii) < Fe(iii) < Cr(iii)d)Fe(iii) = Cr(iii) < Rh(iii) < Ir(iii)Correct answer is option 'A'. Can you explain this answer? tests, examples and also practice Class 12 tests.
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