1 / 8

Fractional Crystallization

Fractional Crystallization. General Chemistry 101/102 Laboratory Manual University of North Carolina at Wilmington. Fractional Crystallization. Purpose. Use the technique of vacuum filtration to separate a heterogeneous mixture into its components.

jerold
Download Presentation

Fractional Crystallization

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Fractional Crystallization General Chemistry 101/102Laboratory ManualUniversity of North Carolina at Wilmington

  2. Fractional Crystallization • Purpose • Use the technique of vacuum filtration to separate a heterogeneous mixture into its components. • Use the technique of fractional crystallization to separate a homogeneous mixture into its components. • Safety Considerations • Exercise care not to burn yourself on hot ringstands, rings, and beakers. • Dispose of all waste materials in the appropriately labeled containers in the hood.

  3. While the mixture is heating, setup a vacuum filtration system. Fractional Crystallization • Procedure • Add about 25 g of one of the unknown mixtures to a pre-weighed 250 mL beaker. Weigh the beaker and mixture to determine the mass of the mixture. • Add 60 mL of DI water to the beaker and heat the mixture to 85 ºC (do not allow it to boil) while stirring. Keep the mixture near 85 ºC for 5 minutes with stirring.

  4. Place a piece of filter paper in the Büchner funnel with the curved edge down. Moisten the paper with a small amount of DI water. curved edge down • Turn on the water to the aspirator and pour the hot solution into the funnel. Use the rubber policeman to transfer all solid material to the funnel. sand filtrate Fractional Crystallization • Procedure

  5. While applying suction, wash the sand twice with 25 mL portions of DI water. Continue to apply suction for 3-4 minutes to help dry the sand. Discard the wash water that collects in the flask. Fractional Crystallization • Procedure • Pour the filtrate into a clean 250 mL beaker and save it for the recrystallization. • Transfer the sand and filter paper to a pre-weighed watch glass and allow the sand to finish drying.

  6. Heat the solution in the 250 mL beaker to boiling. Allow it to boil for about 3 minutes to reduce the volume of water in the solution. • Cool the solution to room temperature by placing the 250 mL beaker into a 600 mL beaker containing 100 mL of tap water. Cool the solution further by placing ice in the 600 mL beaker. Fractional Crystallization • Procedure

  7. Turn on the aspirator and pour the mixture containing the borax crystals onto the Büchner funnel. Fractional Crystallization • Procedure • Wash the borax crystals with a 10 mL portion of ice water. Continue the suction for 3-4 minutes to help dry the crystals. • Transfer the borax crystals and filter paper to a pre-weighed watch glass. Determine the mass of the borax crystals.

  8. While waiting for the borax to finish crystallizing, construct the fermentation system shown below for the Fermentation and Distillation experiment. Fermentation and Distillation • Procedure

More Related