4. Draw an MO diagram for CN- including:
a. The irreducible representations describing each basis
orbital.
b. The relative energies of the basis orbitals.
c. The relative energies of the product orbitals.
d. The irreducible representations describing each product
molecular orbital.
e. The electron occupancy of each product molecular orbital.
4. Draw an MO diagram for CN- including: a. The irreducible representations describing each basis orbital....
4. The planar molecule SO3 shown below has Dzh symmetry. Oos- a) Determine the irreducible representations of the oxygen o orbital combinations. b) Construct a qualitative MO diagram for SO3 using the oxygen o orbitals and the 3s and 3p valence orbitals on the sulphur. c) Which sulphur orbital is not involved in o bonding with the oxygens? d) Determine the irreducible representations of the six oxygen a orbital combinations. e) Which d orbitals on sulphur can undergo i bonding...
4. On the basis of molecular orbitals and molecular orbital diagrams, predict which molecule in each series will have the longest bond. Be sure to provide a brief explanation a. B2, B2 b. 02*, 0,- c. HHe", Hz 5. Consider the hydroxide ion, OH and do the following: a. Prepare a molecular orbital diagram and fill with electrons given the following atomic orbital potential energies: O(2s) = -32.3 eV, O(2p) = -15.8 eV, H(s) -13.6 eV. Be sure to label...
For each of the following examples, (a) Draw a molecular orbital diagram. Include both the atomic orbitals that combine and the molecular orbitals that are formed. Clearly show the relative energies of all orbitals. Label all orbitals and show the appropriate number of electrons in the molecular orbitals. Give both labeling conventions (e.g. sigma2s and 1sigmag) for each of the molecular orbitals. You do not have to sketch the actual orbitals. (b) Give the bond order. (c) Indicate the effect...
Draw molecular orbital energy level diagram for CH3 by following the steps given below. Valance orbital ionization potentials: H(1s) - 13.6 eV, C(2s) -19.5 eV, C(2p) -10.7 ev. (6C, 11) E x +y?,z? 1 1 1 203 3C on 1 1 1 1 1 1 1 T - 1 0 2 1 1 -1 | 1 -1 1 -1 -1 TOT- 2 25; 1 1 - 1 1 -1 1 -1 1 30, 1 1 1 -1 0 1 -1...
PLEASE COMPLETE AND EXPLAIN Draw a Molecular Orbital Energy Diagram showing how each of the following pairs of orbitals can overlap in the orientation shown to form bonding and antibonding orbitals. Clearly draw the starting atomic orbitals and the resulting molecular orbitals, and show their relative energies. a) b) S3d O2
please help Home Name: Homework 3. Organic Chemistry! 0 0 Figure 2: Molecular orbital diagram for H. Note: It is not always necessary to include the graphical pictures of the basis set atomic orbitals or of the molecular orbitals. In most cases the graphical representations are not included in MO diagrams 8. What would you predict would happen to Hif an extemal Lewis base was able to donate an electron pair to the antibonding orbital CH? 9. Draw a molecular...
Draw the molecular orbital (MO) electron diagram for the Be+2 molecular ion. Be sure your diagram contains all of the electrons in the ion, including any core electrons.
+ Draw the molecular orbital (MO) electron diagram for the Li, molecular ion. Be sure your diagram contains all of the electrons in the ion, including any core electrons. 1 Energy ? X
Assuming that only the valence orbitals are involved in bonding, draw an approximate MO energy-level diagram describing the relative energies of these eight molecular orbitals in N2. What is the apparent bond order for N2? Are there any unpaired electrons in this molecule? If so, how many? (Have all small details sigma,pi etc)
4 NCi ICN NC NC CN 5. CN CN CN NC NC 3 For each of the complexes above, draw an energy diagram showing the relative energies of the d-orbitals in each complex and fill these orbitals with d-electrons