Crystal field stabilisation energy for high spin `d^(4)` octahedral complex is

Crystal field stabilization energy for high spin d^(4) octahedral complex is ________

Crystal field stabilization energy for high spin d^4 octahedral complex is

The values of the crystal field stabilization energies for a high spin d^6 metal ion in octahedral and tetrahedral fields, respectively, are :

The magnitude of crystal field stabilisation energy (CFSE of Delta_(1) ) in tetrahedral complexes is considerably less than that in the octahderal field. Because

The magnitude of crystal field stabilisation energy (CFSE of Delta_(1) ) in tetrahedral complexes is considerably less than that in the octahderal field. Because

Crystal field stabilization energy of high spin complex cation having d_5 configuration in an octahedral field is

The value of CFSE (Crystal field stabilisation energy) for Na_4[FeF_6] complex is (ignore pairing energy)

The enthalpy of hydration of the Fe^(2+) ion is 11.4kcal//mol higher than would be expected if there were no crystal field stabillisation energey Assuming the equo complex to be high spin estimate the magnitude of Delta_(0) for [Fe(H_(2)O)_(6)]^(2+) ion .

Determine the crystal field stabilisation energy of a d^(6) complex having Delta_(0) = 25000cm^(-1) and P =1500cm^(-1) .

In which structure crystal field splitting energey (CFSE) for octahedral complex will be zero when DeltaltP .