2. Molecular orbitals of homonulcear diatomic molecule. a. Sketch the molecular orbital energy dia molecular orbitals...
Upon Inspecting a molecular orbital diagram for homonuclear diatomic molecule, you see that this molecule has electrons in bonding orbitals and 6 electrons in anti-bonding orbitals. What is the bond order for this molecule, and would you predict for it to be stable or unstable? O Bond order - 2 stable Bond order - 1, unstable O Bond order 1, stable Bond order 0, unstable : Bond order 2 unstable
Using the molecular orbital energy ordering for second-row homonuclear diatomic molecules in which the π2p orbitals lie at lower energy than the σ2p, predict the bond order in a molecule or ion with each of the following numbers of total valence electrons.(Use the drawing MO energy diagrams) Will the molecule or ion be diamagnetic or paramagnetic? Part A Determine the bond order in a molecule or ion with 4 valence electrons. Part B Will this molecule or ion be diamagnetic...
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...
Molecular orbitals. Consider the following diatomic molecules: H2*, H2, Li2, N2, O2. For each molecule, (A) determine the number of electrons N; (B) give the index i of the HOMO (1 is lowest energy orbital, 2 is next one up, etc); (C) sketch the shape of the HOMO, indicating the signs of the lobes; (D) indicate the symmetry of the HOMO (o, T, 6) Molecular orbitals. Consider the following diatomic molecules: H2*, H2, Li2, N2, O2. For each molecule, (A)...
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),...
5. Below are three representations of the molecular orbitals of a diatomic molecule. Which of the molecular orbitals is a sigma bonding orbital? The atomic nuclei are represented by the small dots. (a) III and II (b) III and I (c) III (d) 11 (e)
Molecular Orbital Model 3. Draw the molecular orbital energy level diagram for the following substances, and complete the tables. Write the ground state molecular orbital electron contiguration | Molecule Enetsy Level Diagram including each atom's energy levels) Molecular orbital clectron contig Bond Order include calculation Paramagnetic or diamagnetic b. N: Molecular orbital electron config Bond Order Paramagnetic or diamagnetic C. Based on the bond orders of N, and N.*, which has the stronger bond? 251 d. Ne Molecular orbital electron...
Question 13 Molecular Orbitals for Heteronuclear Diatomic Molecules Using the above molecular orbital diagram for CO, determine the bond order and magnetic properties. Assuming that it has similar molecular orbital energies to those of carbon monoxide, deduce the bond order of the NO+ ion.
3. Part 2. Show your calculation or explanation for (b) and (c). (a) (3pt) The Molecular Orbital energy diagram of NO (nitrogen monoxide) is given in the right figure. Write the electron configuration of NO molecule in the ground electronic state based on this energy diagram. 6o" Sx 20" 21 Y atom orbitals lo NO molecular atomic (b) (3pt) Determine the bond order of NO molecule. X atom atomic orbitals orbitals (c) (3pt) Which of the following diatomic species has...
The following molecular orbital diagram is for the 2nd period homonuclear diatomic O. It only shows the valence atomic and molecular orbitals. On the diagram fill in the valence electron for both atoms. (pt) Also on the diagram, fill in the valence electrons in the molecule. (% pt) Calculate the bond order of the molecule. (% pt) Does this molecule contain unpaired electrons? (1 pt) yes