Difference between revisions of "Crystallization"
Jump to navigation
Jump to search
Ian Salveson (talk | contribs) (Created page with "Crystalization is a separation technique used to purify solid compounds. Crystallization relies on the principle that compounds tend to be more soluble in hot solvents. Then,...") |
Ian Salveson (talk | contribs) |
||
| (4 intermediate revisions by the same user not shown) | |||
| Line 1: | Line 1: | ||
| + | ==Theory== | ||
Crystalization is a separation technique used to purify solid compounds. Crystallization relies on the principle that compounds tend to be more soluble in hot solvents. Then, if allowed to cool, the compound will form crystals. As it cools, the dissolved molecules come out of solution and try to stick to the crystal. If the geometry of the molecule matches that of the crystal then it is less likely to go back into solution. This is illustrated in the picture below. | Crystalization is a separation technique used to purify solid compounds. Crystallization relies on the principle that compounds tend to be more soluble in hot solvents. Then, if allowed to cool, the compound will form crystals. As it cools, the dissolved molecules come out of solution and try to stick to the crystal. If the geometry of the molecule matches that of the crystal then it is less likely to go back into solution. This is illustrated in the picture below. | ||
| − | [[File: | + | [[File:Crystalliation2.png|Thumb|left|650px|alt=Crystallization Diagram|Figure 3: Crystallization Diagram]] |
Latest revision as of 18:51, 4 April 2016
Theory
Crystalization is a separation technique used to purify solid compounds. Crystallization relies on the principle that compounds tend to be more soluble in hot solvents. Then, if allowed to cool, the compound will form crystals. As it cools, the dissolved molecules come out of solution and try to stick to the crystal. If the geometry of the molecule matches that of the crystal then it is less likely to go back into solution. This is illustrated in the picture below.
