The hybridization involved in complex ${[Ni {(CN)}_{4}]}^{2 -}$ is : (Atomic number of Ni=28)

1. $d s p^{2}$

2. $s p^{3}$

3. $d^{2} s p^{2}$

4. $d^{2} s p^{3}$

Subtopic: VBT, CFT & their Limitations |

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NEET - 2015

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Q27:

The IUPAC name for complex ion, [Fe(CN)₆]^3- is:

1.	Hexacyanoiron(III) ion	2.	Hexacyanitoferrate(III) ion
3.	Tricynoferrate(III) ion	4.	Hexacyanidoferrate(III) ion

Subtopic: Introduction, Classification and Nomenclature |

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Q28:

Among the following complexes the one which shows zero crystal field stabilization energy (CFSE) is

1. $[N i (H_{2} O)_{6}]^{3 +}$

2. $[F e (H_{2} O)_{6}]^{3 +}$

3. $[C o (H_{2} O)_{6}]^{2 +}$

4. $[C o (H_{2} O)_{6}]^{3 +}$

Subtopic: VBT, CFT & their Limitations |

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AIPMT - 2014

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Q29:

Which among the following complexes shows a magnetic moment of 1.73 BM?

1. [Ni(CN)₄]^2–

2. TiCl₄

3. [CoCl₆]^4–

4. [Cu(NH₃)₄]²⁺

Subtopic: VBT, CFT & their Limitations |

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AIPMT - 2013

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Q30:

A paramagnetic ion among the following, forms an outer orbital complex is:

1. $[N i (N H_{3})_{6}]^{2 +}$

2. $[Z n (N H_{3})_{6}]^{2 +}$

3. $[C r (N H_{3})_{6}]^{3 +}$

4. $[C o (N H_{3})_{6}]^{3 +}$

Subtopic: VBT, CFT & their Limitations |

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AIPMT - 2012

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Q31:

Which among the following is a diamagnetic complex?

1. ${[Ni {(CN)}_{4}]}^{2 -}$

2. ${[{CuCl}_{4}]}^{2 -}$

3. ${[{CoF}_{6}]}^{3 -}$

4. ${[{NiCl}_{4}]}^{2 -}$

Subtopic: VBT, CFT & their Limitations |

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AIPMT - 2011

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Q32:

The type of isomerism shown by [Co(NH₃)₆][Cr(CN)₆] and [Cr (NH₃)₆] [Co(CN)₆] is:

1.	Ionisation isomerism
2.	Co-ordination isomerism
3.	Geometrical isomerism
4.	Linkage isomerism

Subtopic: Isomerism in Coordination Compounds |

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Q33:

The complex,

[Pt (Py) ({NH}_{3}) BrCl]

will have how many geometrical isomers?

1. 4

2. 0

3. 2

4. 3

Subtopic: Isomerism in Coordination Compounds |

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Q34:

The complex ion among the following that cannot absorb visible light is:

1. [Ni(CN)₄]^2-

2. [Cr(NH₃)₆]³⁺

3. [Fe(H₂O)₆]²⁺

4. [Ni(H₂O)₆]²⁺

Subtopic: VBT, CFT & their Limitations |

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AIPMT - 2010

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Q35:

Crystal field stabilization energy for high spin d⁴ octahedral complex is

1. -1.8 $∆_{0}$

2. -1.6 $∆_{0}$ +P

3. -1.2 $∆_{0}$

4. -0.6 $∆_{0}$

Subtopic: VBT, CFT & their Limitations |

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The hybridization involved in complex ${[Ni {(CN)}_{4}]}^{2 -}$ is : (Atomic number of Ni=28)

1. $d s p^{2}$

2. $s p^{3}$

3. $d^{2} s p^{2}$

4. $d^{2} s p^{3}$

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The hybridization involved in complex NiCN42-is : (Atomic number of Ni=28) 1. dsp2 2. sp3 3. d2sp2 4. d2sp3

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The hybridization involved in complex ${[Ni {(CN)}_{4}]}^{2 -}$ is : (Atomic number of Ni=28)

1. $d s p^{2}$

2. $s p^{3}$

3. $d^{2} s p^{2}$

4. $d^{2} s p^{3}$