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CN– is a strong field ligand. This is due to the fact that
- a)it carries negative charge.
- b)it is a pseudohalide.
- c)it can accept electrons from metal species.
- d)it forms high spin complexes with metal species.
Correct answer is option 'B'. Can you explain this answer?
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CN– is a strong field ligand. This is due to the fact thata)it carrie...
CN– is a strong field ligand as it is a pseudohalide ion. These ions are strong coordinating ligands and hence have the tendency to form σ-bond (from the pseudo halide to the metal) and ?-bond, (from the metal to pseudo halide)
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CN– is a strong field ligand. This is due to the fact thata)it carrie...
Explanation:
Introduction:
In coordination chemistry, ligands are molecules or ions that bind to a central metal atom or ion to form a coordination complex. Ligands can be classified into strong field ligands and weak field ligands based on their ability to split the d-orbitals of the central metal ion.
Definition of a strong field ligand:
A strong field ligand is a ligand that causes a large splitting of the d-orbitals of the central metal ion. This results in the formation of low spin complexes, where the electrons are preferentially placed in the lower energy orbitals.
Reasons why CN– is a strong field ligand:
There are several reasons why CN– is considered a strong field ligand. The correct answer, option B, states that CN– is a pseudohalide. Let's explore this further:
1. Pseudohalide nature:
CN– is a pseudohalide because it has similar properties to halide ions (such as F–, Cl–, Br–, I–), even though it is not a halide itself. Pseudohalides are known to be strong field ligands.
2. Size and charge:
CN– is a small ligand with a negative charge. The small size allows for greater overlap between the metal d-orbitals and the ligand's π* orbital, resulting in a stronger bonding interaction. The negative charge also enhances the electron-donating ability of CN–.
3. Backbonding:
CN– has a lone pair of electrons on the carbon atom, which can participate in backbonding with the metal d-orbitals. This backbonding further strengthens the metal-ligand bond and increases the ligand's field strength.
4. Polarity:
CN– is a polar ligand due to the electronegativity difference between carbon and nitrogen. This polarity enhances the interaction between the ligand and the central metal ion, leading to a stronger field.
5. High spin complexes:
Contrary to option D, CN– actually forms low spin complexes with metal species. This is because it is a strong field ligand that causes a large splitting of the d-orbitals, favoring the placement of electrons in the lower energy orbitals.
Conclusion:
In conclusion, CN– is considered a strong field ligand due to its pseudohalide nature, small size, negative charge, ability to participate in backbonding, and polarity. These factors result in a large splitting of the d-orbitals and the formation of low spin complexes with metal species.
Introduction:
In coordination chemistry, ligands are molecules or ions that bind to a central metal atom or ion to form a coordination complex. Ligands can be classified into strong field ligands and weak field ligands based on their ability to split the d-orbitals of the central metal ion.
Definition of a strong field ligand:
A strong field ligand is a ligand that causes a large splitting of the d-orbitals of the central metal ion. This results in the formation of low spin complexes, where the electrons are preferentially placed in the lower energy orbitals.
Reasons why CN– is a strong field ligand:
There are several reasons why CN– is considered a strong field ligand. The correct answer, option B, states that CN– is a pseudohalide. Let's explore this further:
1. Pseudohalide nature:
CN– is a pseudohalide because it has similar properties to halide ions (such as F–, Cl–, Br–, I–), even though it is not a halide itself. Pseudohalides are known to be strong field ligands.
2. Size and charge:
CN– is a small ligand with a negative charge. The small size allows for greater overlap between the metal d-orbitals and the ligand's π* orbital, resulting in a stronger bonding interaction. The negative charge also enhances the electron-donating ability of CN–.
3. Backbonding:
CN– has a lone pair of electrons on the carbon atom, which can participate in backbonding with the metal d-orbitals. This backbonding further strengthens the metal-ligand bond and increases the ligand's field strength.
4. Polarity:
CN– is a polar ligand due to the electronegativity difference between carbon and nitrogen. This polarity enhances the interaction between the ligand and the central metal ion, leading to a stronger field.
5. High spin complexes:
Contrary to option D, CN– actually forms low spin complexes with metal species. This is because it is a strong field ligand that causes a large splitting of the d-orbitals, favoring the placement of electrons in the lower energy orbitals.
Conclusion:
In conclusion, CN– is considered a strong field ligand due to its pseudohalide nature, small size, negative charge, ability to participate in backbonding, and polarity. These factors result in a large splitting of the d-orbitals and the formation of low spin complexes with metal species.
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CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer?
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CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer? for NEET 2024 is part of NEET preparation. The Question and answers have been prepared according to the NEET exam syllabus. Information about CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer? covers all topics & solutions for NEET 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer?.
CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer? for NEET 2024 is part of NEET preparation. The Question and answers have been prepared according to the NEET exam syllabus. Information about CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer? covers all topics & solutions for NEET 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer?.
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CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer?, a detailed solution for CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer? has been provided alongside types of CN– is a strong field ligand. This is due to the fact thata)it carries negative charge.b)it is a pseudohalide.c)it can accept electrons from metal species.d)it forms high spin complexes with metal species.Correct answer is option 'B'. Can you explain this answer? theory, EduRev gives you an
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