O THE TRANSITION METALS Adding electrons to a crystal field theory energy level di. The energies...
-Drawing a crystal field theory energy level diagram Using crystal field theory, draw an electron box energy level diagram for the valence d orbitals on the vanadium atom in a complex. Your diagram should show the relative energy of each orbital, and the number of electrons in each orbital. Note: to make your diagram easier to read, label the d orbitals with just the subscript. For example, label the d.2 orbital with just z energy
The transition metal ion, Fe(III), can form octahedral or tetrahedral complexes depending on the ligand it binds to. (a) (i) [Fe(CN)6]3- is a strong field octahedral complex of Fe(III). Draw a labelled orbital energy level diagram that shows both the splitting of the d-orbitals and their electron occupancy in [Fe(CN)6]. (3 marks) (ii) Fe(III) can also form tetrahedral complexes, most of which are weak field. Draw a labelled orbital energy level diagram that shows both the splitting of the d-orbitals...
13. (14 pts) MO Theory Draw the complete (core and valence) molecular orbital energy level diagram for the homonuclear diatomic molecule Be2. Use standard MO symbols to label the energy levels (That is: o, o, , or n*, as needed, with subscripts indicating which atomic orbitals formed them.) a. Sketch the molecular orbital formed when two 2p orbitals, one each on each Be atom, overlap to form a o antibonding MO b. Using your MO energy level diagram in (a),...
Inorganic Chemistry Please help me with #5-#7 5. Draw a d-orbital energy-level diagram, and predict the number of unpaired electrons. a) Fe(CN) b)[Fe(H2O) c) [CoCl2 (tetrahedral) 6. Of the two complexes (a) [CoFeP and (b) [Co(en) one appears yellow and the other appears blue. Match the complex to the color and explain your choice. 7. Three different solutions with orange, green, and violet colors were prepared. Associate each color to the following complexes: [CrCle, (Cr(NHs, and (Cr(H2O