1 / 15

SPRAY FLAME SPECTROSCOPY

STEM Collegian Center Project Presented by Njimikara Abianui and Leke Abondem Atabong 7 December 2007 Supervised by Prof. William A. Boyle. SPRAY FLAME SPECTROSCOPY. It is one of the earliest analytical techniques in chemistry.

zagiri
Download Presentation

SPRAY FLAME SPECTROSCOPY

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. STEM Collegian Center Project Presented by Njimikara Abianui and Leke Abondem Atabong 7 December 2007 Supervised by Prof. William A. Boyle SPRAY FLAME SPECTROSCOPY

  2. It is one of the earliest analytical techniques in chemistry. It identifies elements by the colors they produce in flames. There are many ways of performing this test; each of which has its pros and cons. Wooden splint, cotton swab, loop, spray bottle methods. This project considered two of these methods: the loop and the spray bottle methods. The Flame Test Experiment

  3. Involves the use of a wire inoculation loop (platinum wire is desirable), a Bunsen burner and solutions of salts containing the elements. The wire inoculation loop is cleaned between tests by keeping it in the flame until all the color due to the element is gone. Inadequate cleaning of the loop can make color identification difficult. Loop Method

  4. Spray Bottle Method • Introduces a mist of the element solutions directly into the flame. • Time saving. • No problems of color contamination from previous tests.

  5. 5% solutions of • Li2CO3, • NaCl, • CuSO4, • KCl • Sr(NO3)2 • 60 mL spray bottles. • Bunsen burner MATERIALs

  6. Loop Method Spray Bottle Method • High cost of platinum wires. • Difficult to eliminate element contamination from nichrome-steel wire (a less expensive substitute for platinum). • Flame color contamination. • Time consuming. • Affordable spray bottles. • Easy to clean and maintain. • Uses comparable amounts of solutions as the loop method. • No flame color contamination. • Faster to use. COMPARISON

  7. RESULTS

  8. Lithium

  9. Sodium

  10. Potassium

  11. COpper

  12. Strontium

  13. The loop method was time-consuming and prone to errors in the colors produced. The spray bottle method is faster and produces the clean colors of each element. Conclusion

  14. ACKNOWLEDGEMENTS The plastic spray bottles used in this experiment were kindly provided to PGCC courtesy of B.F. Ascher & Co., Inc., Lenexa, KS, USA. http://www.bfascher.com/

  15. Dogancay, Deborah. "Flame Tests Performed Safely: A Safe and Effective Alternative to the Traditional Flame Test." The Science Teacher 72.6 (2005): 34-38. Science Resource Center. Thomso Gale. Prince George's Community College Library. 6 Dec. 2007 <http://galenet.galegroup.com>. • Johnson, Kristin, and Rodney Schreiner. "A Dramatic Flame Test Demonstration." Journal of Chemical Education 78.5 (2001): 640-41. 6 Dec. 2007 <http://www.eric.ed.gov>. REferences

More Related