| Solution | Absorbance | [Fe(SCN)2+]eq |
| B-1 | 0.060 | 1.4*10-5 |
| B-2 | 0.151 | 3.8*10-5 |
| B-3 | 0.323 | 8.07*10-5 |
| B-4 | 0.381 | 9.5*10-5 |
| B-5 | 0.427 | 1.06*10-4 |
| Solution | Vol of 0.002 M Fe3+ | Volume of 0.002 M SCN- | Volume of H2O |
| B-1 | 5.0 mL | 1.0 mL | 5.0 mL |
| B-2 | | 2.0 mL | 4.0 mL |
| B-3 | 5.0 mL | 3.0 mL | 3.0 mL |
| B-4 | 5.0 mL | 4.0 mL | 2.0 mL |
| B-5 | 5.0 mL | 5.0 mL | 1.0 mL |
2. Determine the equilibium concentration of each of thereactants and products in Solution B-1 using thetable provided below (ICE table). Fill in all blank values
| [Fe3+] | [SCN-] | [Fe(SCN)2+] |
| Initial Concentration | | | |
| Change in Equilibrium | | | |
| Equilibrium Concentration | | | |
3.Determine the equilibium concentration of each of thereactants and products in Solution B-2 using thetable provided below (ICE table). Fill in all blank values
| [Fe3+] | [SCN-] | [Fe(SCN)2+] |
| Initial Concentration | | | |
| Change in Concentration | | | |
| Equilibrium Concentration | | | |
4.Determine the equilibium concentration of each of thereactants and products in Solution B-3 using thetable provided below (ICE table). Fill in all blank values
| [Fe3+] | [SCN-] | [Fe(SCN)2+] |
| Initial Concentration | | | |
| Change in Concentration | | | |
| Equilibrium Concentration | | | |
5. Determine the equilibium concentration of each of thereactants and products in Solution B-4 using thetable provided below (ICE table). Fill in all blank values
| [Fe3+] | [SCN-] | [Fe(SCN)2+] |
| Initial Concentration | | | |
| Change in Equilibrium | | | |
| Equilibrium Concentration | | | |
6.Determine the equilibium concentration of each of thereactants and products in Solution B-5 using thetable provided below (ICE table). Fill in all blank values
| [Fe3+] | [SCN-] | [Fe(SCN)2+ |
| Initial Concentration | | | |
| Change in Equilibrium | | | |
| Equilibrium Concentration | | | |
I have no idea how to do problems 2-6. Could someone please helpme. Your help is always greatly appreciated! Thank you inadvance.
