2. (10 pts) Calcium carbide, CaC, contains acetylide ion, C. Draw molecular orbital diagram for this ion and determ...
4. (12pts) Consider the acetylide ion, C, found in ionic solids like CaC. 1) (4pts) Draw an energy-level diagram for the valence molecular orbitals of C. (The orbitals have the same energy order as those of the neutral C molecule). Fill in the orbital diagram with the appropriate number of electrons. 2) (1pts) The Cyion is (circle one): paramagnetic or diamagnetic 3) (1pts) The bond order of C;- is: 4) (3pts) Draw the best possible Lewis structure for C2- and...
Determine the structure of OF+. Draw the MO (Molecular orbital) diagram for the ion. Determine the bond order. Is it paramagnetic or diamagnetic? Clear drawing with labels is the best! I am trying to learn it and not just get the answer. I appreciate it thank you.
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...
Draw the molecular orbital diagram for S2^2- and Cl2^2+, and also for NO and HCl. Calculate their bond order, and say whether they are paramagnetic or diamagnetic. Please help!
5. Draw the molecular orbital diagram for N2. Label all of the atomic orbitals and molecular orbitals and put the correct number of electrons in. You do not need to draw the shapes of any of the orbitals. a) MO diagram b) Based on your MO diagram, is N2 diamagnetic or paramagnetic? c) Calculate the bond order for N2.
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.
The molecular orbital energy diagram for the valence orbitals of the NO– ion is shown below. Use this diagram to answer the following questions. a) What is the bond order in NO– ? b) Is NO– diamagnetic, or is it paramagnetic? How can you tell? c) Which has the larger bond distance, NO– or NO? * O2p T2p T2p G2s
Draw the molecular orbital diagram for the F2 ion, write the electron configuration, and calculate the bond order for the F2 ion. Is the F2-ion stable?
1- Draw the molecular orbital diagram of transition metal ion in high-spin Mn(H2O)4(OH)2 complex, also determine the number of unpaired electron. 2- Draw the molecular orbital diagram of transition metal ion in low-spin [Cr(en)2(NH3)2].Cl2 complex, also determine the number of unpaired electron. 3- Draw the molecular orbital diagram of transition metal ion in high-spin K.[Mn(CO)3(OH)3] complex, also determine the number of unpaired electron.
9. Construct the molecular orbital diagram for the cyanide ion. Calculate the bond order for this ion. Molecular orbitals of CN Atomic arbitals of Atomic orbitals of Nitrogen Carbon 2p 77 TT 19, 2s b. Draw the Lewis structure for cyanide. Do the 2 models predict the same or different bond orders? 24 6-4