Construct a molecular orbital diagram and assign the point group for tetrahedral [BH4]–
Construct a molecular orbital diagram and assign the point group for tetrahedral [BH4]–
6) Use the D2h point group to construct the molecular orbital diagram for CO2
Construct a molecular orbital diagram for carbon monoxide. Identify the relevant point group, include all of the appropriate symmetry labels and pictures, and fill in the electrons. Make sure to account for the difference in electronegativity between C and O. Hint: CO is substantially isoelectronic to N2.
construct molecular orbital energy diagram of clf4
Draw the molecular orbital diagram for: (indicate the point group symmetry and draw with bonding and non bonding labeled, SALCS, and connecting lines) 1. SCl4 2. CO2
Draw the molecular orbital diagram for: (indicate the point group symmetry and draw with bonding and non bonding labeled, SALCS, and connecting lines) 1. PF5 2. SCl4
Construct a molecular orbital energy-level diagram for H2S. Sketch the molecular orbital picture (schematic representation) for the LUMO of H2S (using orbital potential energies)
Construct the molecular orbital diagram of He2 using appropriate molecular orbital labels and arrows to represent electrons. a) Sketch each molecular orbital. Explain HOW you identify an antibonding orbital. b) Identify the linear combination of atomic orbitals for each molecular orbital. Explain WHY there are two molecular orbitals. Explain why the He2 molecule is NOT observed experimentally. c)
Draw the molecular orbital diagram for SCl4. PLEASE indicate the point group symmetry and draw with bonding and non bonding labeled, SALCS, and connecting lines!
2 A molecular orbital diagram for a tetrahedral transition metal complex is shown below. Show how the electrons occupy the molecular orbitals in the diagram for each complex (a)-(g). Why are low-spin, tetrahedral transition metal complexes rare? (a) [MnBra (d) [CuCl (b) [CrC (e) [NICI (c) IMnO (OsO (g) MoF ΔΤ e+t a+t 4L a (b) Identify the bonding, anti-bonding, and non-bonding orbitals in this diagram. M
Construct the molecular orbital diagram for H2+ and then identify the bond order.