2. Write the MO electronic configuration for the valence electrons only of the ff. ions :...
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.)
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.)
3. (20 pts) Sketch the molecular orbital scheme and write electronic configuration for the following ions: (a) N2*; (b)Li2': (c) 02'; (d) H2'; e) C2. Predict the bond order for these species.
2. (40 points) The MO diagrams for homonuclear diatomic molecules are given below. LUMO Lowes Unceaupiad 2P HOMD (tHighast ocaupied No No mixing Mixing of og orbitals (a) (b) Bo BongNon 8-2 Va) (15 pts) Choose the appropriate diagram for the N2 molecule and place the right number of electrons. Indicate the frontier orbitals (HOMO and LUMO) and the bond order. b) (20 pts) Sketch a qualitative MO diagram for the heteronuclear diatomic anion CN; place the right number of...
Draw the molecular orbital of Kr2 (+2) and determine the ground state electronic configuration, bond order, magnetic properties, HOMO and LUMO of the molecule.
Q1(A) Define valence electrons. Write the electronic configuration, electronic structure, block and find the valency of Osmium. (5 Marks) Q1(B) Calculate the percentage (%) of elements in CH3(CH2)6NHCH2COOH.(5 Marks).
2. (40 points) The MO diagrams for homon omonuclear diatomic molecules is given below. umolt Anh HOMO Homo a) Bo 8 4 2 No mixing Mixing of, orbitals (a) (b) U2 36 zire .02=642=2e- va) (15 pts) Choose the appropriate diagram for the O molecule and place the right number of electrons. Indicate the frontier orbitals (HOMO and LUMO) and the bond order. b) (20 pts) Sketch a qualitative MO diagram for the heteronuclear diatomic anion CN; place the right...
6. Write the electronic configuration of column III elements: Boron(B), Aluminium (Al), Indium (In). Write the number of valence electrons present in these elements. (2 pts.) 7. Write the electronic configuration of column IV elements: Carbon (C), Silicon (Si), Germanium (Ge). Write the number of valence electrons present in these elements. (2 pts.) 8. Write the electronic configuration of column V elements: Nitrogen (N), Potassium (K), Arsenic (As), Antimony (Sb). Write the number of valence electrons present in these elements....
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...
Except assume s-p mixing 5. Assuming no s-p mixing, write the (valence) electron configurations of the following diatomic molecules or ions. For each molecule give the bond order, and the number of unpaired electrons. Also, tell which orbitals are SOMOs, if any, otherwise, identify the HOMO and the LUMO. (a) B2: (b) C22-; (c) N,: (d) Bez: (e) C2.