Home
Class 12
CHEMISTRY
Explain the hybridisation, geometry and ...

Explain the hybridisation, geometry and magnetic property of `[CoF_(6)]^(3-)` based on VBT.

Text Solution

Verified by Experts

Electronic Configuration of `[CoF_(5)]^(3-)`

The complex has octahedral geometry.
This complex is paramagnetic because of the presence of unpaired electrons.
Promotional Banner

Topper's Solved these Questions

  • SOLVED PAPER II PUC APRIL-2016

    OSWAAL PUBLICATION|Exercise PART-D |27 Videos

  • SOLVED PAPER II PUC APRIL-2016

    OSWAAL PUBLICATION|Exercise PART-B |8 Videos

  • Solved Paper 4

    OSWAAL PUBLICATION|Exercise exercise|62 Videos

  • SOLVED PAPER II PUC JULY - 2016

    OSWAAL PUBLICATION|Exercise PART -E|19 Videos

Similar Questions

Explore conceptually related problems

Explain the hybridisation, geometry and magnetic property of [Ni(Cl)_(4)]^(2-) .

Explain the hybridisation, geometry and magnetic prpoperty of [Co(NH_(3))_(6)]^(3+) based on VBT.

Explain the hybridization, geometry and magnetic property of [Co(NH_3)_6]^(3+) ion on the basis of Valance Bond Theory (VBT). [Atomic number of Co= 27].

On the basis of VBT explain the hybridization, geometrical shape and magnetic property of [CoF_(6)]^(3-) , hexafluorido cobaltate (III) ion.

With the help of Valence Bond theory account for hybridisation, geometry and magnetic property of [Ni(CN)_(4)]^(2-) complex ion [Z" for "Ni=28]