Guided course 03:04The crystal field splitting pattern for octahedral complexes has the d orbitals on or along the axes as having the higher energy.Jules Bruno220views1rank1comments
Multiple ChoiceThe following diagram shows crystal field splitting pattern for a complex. Which one of the complexes given below should best match the given diagram?120viewsHas a video solution.
Textbook QuestionDraw a crystal field energy-level diagram for the 3d orbitals of titanium in [Ti(H2O)6]3+]. Indicate the crystal field splitting, and explain why is [Ti(H2O)6]3+] colored.51viewsHas a video solution.
Textbook QuestionThe [Cr(H2O)6]3+ ion is violet, and [Cr(CN)6]3- is yellow. Explain this difference using crystal field theory. Use the colors to order H2O and CN- in the spectrochemical series.52viewsHas a video solution.
Textbook QuestionThe Ni2+(aq) cation is green, but Zn2+(aq) is colorless. Explain. <IMAGE>43viewsHas a video solution.
Textbook QuestionLook at the colors of the isomeric complexes in Figure 21.12, and predict which is the stronger field ligand, nitro (-NO2) of nitrito (-ONO). Explain. 44viewsHas a video solution.
Textbook QuestionWhat is the crystal field energy level diagram for the complex [Fe(NH3)6]3+?(a) <IMAGE>(b) <IMAGE>(c) <IMAGE>(d) <IMAGE>113viewsHas a video solution.
Open QuestionConstruct the octahedral crystal-field splitting diagram for the metal in each species.218viewsHas a video solution.