| 1. | |
2. | |
| Experimental setup | Spectrum of the tungsten lamp | ||
| 3. | |
4. | |
| Cuvette with rhodamine 6G-solution in the beam part | Resulting spectrum | ||
| 5. | |
6. | |
| Cuvette with JA 22 (Xanthen-dye)-solution in the beam part | Resulting spectrum |
| Experiment description is not available at this time. |
| Exercise 2.7.1.1: Solution: |
Draw the structural formula of the dye rhodamine 6G. |
| Exercise 2.7.1.1: Solution: |
One gram rhodamine 6G (molecular mass 477.2 g/mol) is dissolved in a dam that contains approx. 5×108 m3 water. Calculate how many dye molecules are present per liter water. |