Advertisements
Advertisements
प्रश्न
Arrange the following in order of increasing molar conductivity.
i) \[\ce{Mg[Cr(NH3) (Cl)5]}\]
ii) \[\ce{[Cr(NH3)5 Cl]3 [CoF6]2}\]
iii) \[\ce{[Cr(NH3)3 Cl3]}\]
Advertisements
उत्तर
These complexes can ionise in solution as:
i) \[\ce{Mg[Cr(NH3) (Cl)5] = Mg^2+ [Cr(NH3) (Cl)]^2-}\]
ii) \[\ce{[Cr(NH3)5 Cl]3 [CoF6]2 = [Cr(NH3)5Cl]^2+ + [CoF6]^3-}\]
iii) \[\ce{[Cr(NH3)3 Cl3]}\] = does not ionize
As the number of ions in the solution increases, their molar conductivity also increases.
Therefore, conductivity follows the order:
\[\ce{[Cr(NH3)3 Cl3] < [Cr(NH3)5Cl]3 [CoF6]2 < Mg[Cr(NH3)(Cl5)]}\]
APPEARS IN
संबंधित प्रश्न
The sum of primary valence and secondary valence of the metal M in the complex [M(en)2(Ox)]Cl is ____________.
As per IUPAC guidelines, the name of the complex [Co(en)2(ONO)Cl]Cl is
Crystal field stabilization energy for high spin d5 octahedral complex is ____________.
Choose the correct statement.
Give an example for a complex of the type [Ma2b2c2] where a, b, c are monodentate ligands and give the possible isomers.
In an octahedral crystal field, draw the figure to show the splitting of d orbitals.
Why tetrahedral complexes do not exhibit geometrical isomerism.
What is crystal field stabilization energy (CFSE)?
Discuss briefly the nature of bonding in metal carbonyls.
Write the oxidation state, coordination number, nature of ligand, magnetic property and electronic configuration in octahedral crystal field for the complex \[\ce{K4[Mn(CN)6]}\].
