321872 \({\mathrm{\left[\mathrm{ML}_{6}\right]^{\mathrm{n+}}}}\) is an octahedral complex. Its crystal field splitting energy \({\mathrm{\left(\Delta_{0}\right)}}\) is 1.8 eV . If same metal ion \({\mathrm{\left(\mathrm{M}^{\mathrm{n}+}\right)}}\) forms a tetrahedral complex with same ligands ( \({\mathrm{L}}\) ), then the crystal field splitting energy \({\mathrm{\left(\Delta_{t}\right)}}\) of \({\mathrm{\left[\mathrm{ML}_{4}\right]^{\mathrm{n}+}}}\) in eV is ____ .

321873 Assertion :
\({{\rm{\Delta }}_{\rm{t}}}{\rm{ = }}\frac{{\rm{4}}}{{\rm{9}}}{{\rm{\Delta }}_{\rm{o}}}{\rm{.}}\)
Reason :
\({{\rm{\Delta }}_{\rm{O}}}\) is always greater than \({{\rm{\Delta }}_{\rm{t}}}\) for same metal ion and ligand.

321874 The crystal field stabilisation energy (CFSE) is highest for

321875 Which among the following is a correct order of increasing field strength of ligands?

321872 \({\mathrm{\left[\mathrm{ML}_{6}\right]^{\mathrm{n+}}}}\) is an octahedral complex. Its crystal field splitting energy \({\mathrm{\left(\Delta_{0}\right)}}\) is 1.8 eV . If same metal ion \({\mathrm{\left(\mathrm{M}^{\mathrm{n}+}\right)}}\) forms a tetrahedral complex with same ligands ( \({\mathrm{L}}\) ), then the crystal field splitting energy \({\mathrm{\left(\Delta_{t}\right)}}\) of \({\mathrm{\left[\mathrm{ML}_{4}\right]^{\mathrm{n}+}}}\) in eV is ____ .

321873 Assertion :
\({{\rm{\Delta }}_{\rm{t}}}{\rm{ = }}\frac{{\rm{4}}}{{\rm{9}}}{{\rm{\Delta }}_{\rm{o}}}{\rm{.}}\)
Reason :
\({{\rm{\Delta }}_{\rm{O}}}\) is always greater than \({{\rm{\Delta }}_{\rm{t}}}\) for same metal ion and ligand.

321874 The crystal field stabilisation energy (CFSE) is highest for

321875 Which among the following is a correct order of increasing field strength of ligands?

321872 \({\mathrm{\left[\mathrm{ML}_{6}\right]^{\mathrm{n+}}}}\) is an octahedral complex. Its crystal field splitting energy \({\mathrm{\left(\Delta_{0}\right)}}\) is 1.8 eV . If same metal ion \({\mathrm{\left(\mathrm{M}^{\mathrm{n}+}\right)}}\) forms a tetrahedral complex with same ligands ( \({\mathrm{L}}\) ), then the crystal field splitting energy \({\mathrm{\left(\Delta_{t}\right)}}\) of \({\mathrm{\left[\mathrm{ML}_{4}\right]^{\mathrm{n}+}}}\) in eV is ____ .

321873 Assertion :
\({{\rm{\Delta }}_{\rm{t}}}{\rm{ = }}\frac{{\rm{4}}}{{\rm{9}}}{{\rm{\Delta }}_{\rm{o}}}{\rm{.}}\)
Reason :
\({{\rm{\Delta }}_{\rm{O}}}\) is always greater than \({{\rm{\Delta }}_{\rm{t}}}\) for same metal ion and ligand.

321874 The crystal field stabilisation energy (CFSE) is highest for

321875 Which among the following is a correct order of increasing field strength of ligands?

321872 \({\mathrm{\left[\mathrm{ML}_{6}\right]^{\mathrm{n+}}}}\) is an octahedral complex. Its crystal field splitting energy \({\mathrm{\left(\Delta_{0}\right)}}\) is 1.8 eV . If same metal ion \({\mathrm{\left(\mathrm{M}^{\mathrm{n}+}\right)}}\) forms a tetrahedral complex with same ligands ( \({\mathrm{L}}\) ), then the crystal field splitting energy \({\mathrm{\left(\Delta_{t}\right)}}\) of \({\mathrm{\left[\mathrm{ML}_{4}\right]^{\mathrm{n}+}}}\) in eV is ____ .

321873 Assertion :
\({{\rm{\Delta }}_{\rm{t}}}{\rm{ = }}\frac{{\rm{4}}}{{\rm{9}}}{{\rm{\Delta }}_{\rm{o}}}{\rm{.}}\)
Reason :
\({{\rm{\Delta }}_{\rm{O}}}\) is always greater than \({{\rm{\Delta }}_{\rm{t}}}\) for same metal ion and ligand.

321874 The crystal field stabilisation energy (CFSE) is highest for

321875 Which among the following is a correct order of increasing field strength of ligands?