Home
Class 12
CHEMISTRY
Explain the bonding in coordination comp...

Explain the bonding in coordination compounds in terms of Werner’s postulates.

Promotional Banner

Topper's Solved these Questions

  • COORDINATION COMPOUNDS

    NCERT TELUGU|Exercise Intext Question|11 Videos

  • CHEMISTRY IN EVERYDAY LIFE

    NCERT TELUGU|Exercise Exercises|27 Videos

  • D-BlOCK ELEMENTS

    NCERT TELUGU|Exercise SELF EVALUATION (EXERCISE PROBLEMS)|2 Videos

Similar Questions

Explore conceptually related problems

Explain the terms Coordination number

Explain the terms Coordination entity

Explain the terms Ligand

Explain the given term Duodenum

Explain the terms:ionization

Explain the term sonority

Complex compounds are molecular compounds which retain their indentities even when dissolved in water. They do not give all the simple ions in solution but instead furnish complex ions. The complex compounds are often called coordination compounds because certain groups called ligands are attached to the central metal ion by coordinate or dative bonds. Coordination compounds exhibit isomerism, both structural and stereoisomerism. The struculre, magnetic property, colour and electrical properties of complexes are explained by various theories. which of the following pairs, both the complexes have the same geometry?

Complex compounds are molecular compounds which retain their indentities even when dissolved in water. They do not give all the simple ions in solution but instead furnish complex ions. The complex compounds are often called coordination compounds because certain groups called ligands are attached to the central metal ion by coordinate or dative bonds. Coordination compounds exhibit isomerism, both structural and stereoisomerism. The struculre, magnetic property, colour and electrical properties of complexes are explained by various theories. The oxidation number, coordination number and magnetic moment in the following complex Na_(3)[Cr(CN)_(6)] is :

Explain the formation of Coordinate Covalent bond with one example.

Knowledge Check

  • Complex compounds are molecular compounds which retain their indentities even when dissolved in water. They do not give all the simple ions in solution but instead furnish complex ions. The complex compounds are often called coordination compounds because certain groups called ligands are attached to the central metal ion by coordinate or dative bonds. Coordination compounds exhibit isomerism, both structural and stereoisomerism. The struculre, magnetic property, colour and electrical properties of complexes are explained by various theories. which of the following pairs, both the complexes have the same geometry?

    A
    `[NiCl_(4)]^(2-),[Ni(CN)_(4)]^(2-)`
    B
    `[CoF_(6)]^(3-),[Co(NH_(3))_(6)]^(3+)`
    C
    `[Ni(CO)_(4)],[Ni(CN)_(4)]^(2-)`
    D
    `[Cu(NH_(3))_(4)]^(+),[Ni(NH_(3))_(4)]^(2+)`

  • Complex compounds are molecular compounds which retain their indentities even when dissolved in water. They do not give all the simple ions in solution but instead furnish complex ions. The complex compounds are often called coordination compounds because certain groups called ligands are attached to the central metal ion by coordinate or dative bonds. Coordination compounds exhibit isomerism, both structural and stereoisomerism. The struculre, magnetic property, colour and electrical properties of complexes are explained by various theories. The oxidation number, coordination number and magnetic moment in the following complex Na_(3)[Cr(CN)_(6)] is :

    A
    `O.N=+3,C.N.=6,M.M.=sqrt(15)BM`
    B
    O.N = -1, C.N. = 6, M.M. = `sqrt(15)BM`
    C
    O.N = +3, C.N. = 6, M.M. = `sqrt(3)BM`
    D
    0,= +3, CN. = 6, MM. = `sqrt(12)BM`
    • NCERT TELUGU-COORDINATION COMPOUNDS-Exercises
    1. Explain the bonding in coordination compounds in terms of Werner’s pos...

      Text Solution

      |

    2. FeSO(4) solution mixed with (NH(4))(2)SO(4) solution in 1 : 1 molar ra...

      Text Solution

      |

    3. Explain with two examples each of the following: coordination entity, ...

      Text Solution

      |

    4. What is meant by unidentate, didentate and ambidentate ligands? Give t...

      Text Solution

      |

    5. Specify the oxidation numbers of the metals in the following coordinat...

      Text Solution

      |

    6. Using IUPAC norms write the formulas for the Tetrahydroxozincate (II)

      Text Solution

      |

    7. Using IUPAC norms write the systematic names of the [Co(NH(3))(6)]Cl(3...

      Text Solution

      |

    8. List various types of isomerism possible for coordination compounds, g...

      Text Solution

      |

    9. How many geometrical isomers are possible in the following coordinatio...

      Text Solution

      |

    10. Draw the structures of optical isomers of: (i) [Cr(C(2)O(4))(3)]^(3-...

      Text Solution

      |

    11. Draw all the isomers (geometrical and optical) of : (i) [CoCl(2)(en)...

      Text Solution

      |

    12. Write all the geometrical isomers of [Pt(NH(3))(Br)(Cl)(py)] and how m...

      Text Solution

      |

    13. Aqueous copper sulphate solution (blue in colour) gives: (i) a green...

      Text Solution

      |

    14. What is the coordination entity formed when excess of aqueous KCN is a...

      Text Solution

      |

    15. Discuss the nature of bonding and magnetic behaviour in the [Fe(CN)(6)...

      Text Solution

      |

    16. Sketch the splitting of d orbitals in an octahedral crystal field,

      Text Solution

      |

    17. What is spectrochemical series ? Explain the difference between a weak...

      Text Solution

      |

    18. What is crystal field splitting energy? How does the magnitude of Delt...

      Text Solution

      |

    19. [Cr(NH(3))(6)]^(3+) is paramagnetic while [Ni(CN)(4))]^(2-) is diamagn...

      Text Solution

      |

    20. A solution of [Ni(H(2)O)(6)]^(2+) is green but a solution of [Ni(CN)(4...

      Text Solution

      |