The Crystal Field Stabilization Energy (CFSE) of `[CoF_(3)(H_(2)O)_(3)](Delta_(0)lt P)` is :

The crystal field stabilization energy (CFSE) in [Co(SCN)_(6)]^(3-) is :

The crystal field stabilisation energy of [Co(NH_(3))_(6)]Cl_(3) is:

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

The electronic spectrum of [Ti(H_(2)O)_(6)]^(3+) shows a single broad peak with a maximum at "20,300 cm"^(-1) . The crystal field stabillization energy (CFSE) of the complex ion, in "kJ mol"^(-1) , is : ("1 kJ mol"^(-1) =" 83.7 cm"^(-1))

Corystal field splitting energy (CFSE) for the complex [Cr(H_(2)O)_(6)]^(2+) is when (DeltaltP) .

Crystal field stabalisation energy for complex [Co(CN)_(6)]^(-3) will be :-

Crystal field splitting energy (CFSE) for the complex [Cr(H_(2)O)_(6)]^(2+) is when P =20925cm^(-1) and Delta_(0) = 10462.5cm^(-1)(1kJmo1^(-1) = 83.7 cm^(-1)) .

Crystal field splitting energy (CFSE) for the complex [Cr(NH_(3))_(6)]^(2+) is (when Delta gtP ) .

Crystal field splitting energy (CFSE) for the complex [Cr(NH_(3))_(6)]^(2+) is when P =125 and Delta_(0) =250kjmol^(-1) .