11. The hydration energy for [Cr(H20)is-1850 kJ/mole. (a) Using data in Table 8.4 and/or 8.5, det...
11. The hydration energy for [Cr(H20)is-1850 kJ/mole. (a) Using data in Table 8.4 and/or 8.5, determine Ao for the complex in kJ/mole. (a) Now draw the electronic configuration for the ion and determine the CFSE in kJ/mole [pairing energy- 23,500 cm'1 (c) What is the % contribution to the hydration energy of the CFSE ? 12. Assign each of the following molecules to a point group Fe NH2 Pt NH2 Br Br 13. List all the symmetry operations generated by each of the following elements. (a) C (b) Ss (c) S
11. The hydration energy for [Cr(H20)is-1850 kJ/mole. (a) Using data in Table 8.4 and/or 8.5, determine Ao for the complex in kJ/mole. (a) Now draw the electronic configuration for the ion and determine the CFSE in kJ/mole [pairing energy- 23,500 cm'1 (c) What is the % contribution to the hydration energy of the CFSE ? 12. Assign each of the following molecules to a point group Fe NH2 Pt NH2 Br Br 13. List all the symmetry operations generated by each of the following elements. (a) C (b) Ss (c) S