Create tables for your experimental data and then

Physical Chemistry Lab Report – Magnetic Susceptibility. Need some one to complete the discussion questions. Sorry, short time!Some answers may have been done. Attached is our calculations section. Go to http://chemicaleducation.org and under CHEM 1430 Lab Manual the Magnetic Susceptibility lab is there.Laboratory ReportCreate tables for your experimental data and then for the experimental meff compared to the theoretical meff that you predicted (based on the spectral chemical series and the metal oxidation state) and the corresponding experimental number of unpaired electrons. Create a table for your DFT calculation results with the energies and the spin state determined from these values. Finally, make a table with your experimental number of unpaired electrons and the spin state (High or Low) and the spin state you predicted as well as predicted by DFT calculations. See the Appendix for example tables.1. Draw the d-orbital splitting diagram for each of the complexes, predicting whether they will be high- or low-spin. Explain your choices regarding the most probable spin-state of each complex. Please address both ligand and metal effects in your answer.2. Based on the relative energies of the high- and low-spin complexes from the DFT calculations, which spin-state would you expect to be most likely for each complex? Explain whether or not this is consistent with your predictions from crystal field theory, and if not, discuss possible explanations for the discrepancy.4. acac- is not included on most common spectral chemical series lists. Based on your experiments can you determine approximately where you think it should be in the series? Provide an explanation for your decision.5. Discuss any trends you find in the spin states for the metals and or ligands.3kTχ 1/26. Prove that u =  m  = 2.828(χ T)1/ 2 making sure to show your unit analysis.

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