Draw the molecular orbital of Kr2 (+2) and determine the ground state electronic configuration, bond order,...
3. For the O2, O2+, O2- (1) Draw the molecular orbital electron configuration O2- (2) Sketch(draw like in Figure *9.36) the HOMO (highest occupied molecular orbital) for O2- (3) In each case, calculate the bond order, number of unpaired electrons and bond lengths. *9.36 Consider a molecule with formula AX3. Supposing the A-X bond is polar, how would you expect the dipole moment of the AX3 molecule to change as the X-A-X bond angle increases from 100℃ to 120℃?
5.A homonuclear diatomic molecule in its molecular ground state has the following electronic configuration: a) What is the link order? b) What is the multiplicity of spin? c) What is the difference in the stability of the molecule, when ionizing it, removing an electron from the 1π_g molecular orbital or doing it from the 3Sigma_g molecular orbital i'll give you a like so please explain step by step thank you! N a 1o21022032011143017 09 bo
Write & Insert Fields Preview Results Finish 5. Based on Molecular Orbital Theory MOT i) Write the ground state electron configuration of Bez, B2, C2, F2 molecules. Calculate Bond Order for each molecule? ii) Show whether the molecule can exist or not, indicate its magnetic behavior & indicate the HOMO & LUMO orbitals? iii) Calculate the BO of acetylide ion Cy?-? Indicate whether it exist or not. Hint Lito N; use: lolo, 19,20,17, 20, & or for 0& Fuse: lolo...
2. Consider the O; molecule (a) Indicate the ground state orbital diagram, the ground state electron configuration, the bond order and whether O2 in the ground state is diamagnetic or paramagnetic. (8 points) (b) A Lewis structure obeying the octet rule can be drawn for O, as follows Does the above Lewis structure represent a paramagnetic state or a diamagnetic state? (2 points) (c)Use the molecular orbital diagram for O, to show that the above Lewis structure corresponds to an...
The ground state of H2 has the molecular-orbital configuration (σgb)2. In addition to the ground state there are excited states that have the following configuration: (pic) Predict which of these states would be highest in energy and which would be lowest. Explain your reasoning. Would you expect the lowest excited state of H2 to be paramagnetic or diamagnetic? 1. The ground state of H2 has the molecular-orbital configurationo). In addition to the ground state there are excited states that have...
2. Write the MO electronic configuration for the valence electrons only of the ff. ions : Indicate the magnetic behavior and calculate the bond order. Label the HOMO and the LUMO. a) 02 b) N2" (12 pts. )
2. Write the MO electronic configuration for the valence electrons only of the ff. ions : Indicate the magnetic behavior and calculate the bond order. Label the HOMO and the LUMO. a) 02 b) Nº (12 pts.)
2. Write the MO electronic configuration for the valence electrons only of the ff. ions : Indicate the magnetic behavior and calculate the bond order. Label the HOMO and the LUMO. a) O2 b) N2 (12 pts.)
Consider the Molecular Orbital diagram for the ion O_2^+. Predict the bond order. 3.0 2.5 2.0 1.5 1.0 Consider the following statements. Which type of orbital will be the lowest unoccupied molecular orbital (LUMO)? Which type of orbital will be the highest occupied molecular orbital (HOMO)? Will the ion be paramagnetic or diamagnetic?
5. Draw Molecular Orbital Diagrams for C2, C2 and C2. a. Determine the bond order for each molecule b. Determine whether each of the molecules is paramagnetic or diamagnetic. c. Determine which molecule has the shortest and longest bond.