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Bacteria

Bacteria. By: Dylan Sexton. About Me. About Me. Dylan Sexton Age 15 Grade 10 Favorite Subject is Science Dream Job Working for NASA Enjoys Volunteering Full Time FLVS Student Currently Enrolled in 6 Courses. Purpose. Purpose.

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Bacteria

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  1. Bacteria By: Dylan Sexton

  2. About Me

  3. About Me • Dylan Sexton • Age 15 • Grade 10 • Favorite Subject is Science • Dream Job Working for NASA • Enjoys Volunteering • Full Time FLVS Student • Currently Enrolled in 6 Courses

  4. Purpose

  5. Purpose The purpose of my project is to see which surfaces have the most bacteria on them and which antibacterial agent works best to eliminate this bacteria. I will test multiple household surfaces during this project.

  6. Hypothesis

  7. My Hypothesis My hypothesis it that the living room floor will have the more bacteria on it then any other household surface. I believe the Clorox wipes will work best to eliminate this bacteria.

  8. Materials

  9. Materials List • Petri Dishes • Heat and Pour Agar • Gloves • Mask • Inoculating Swabs • Space Heater • Humidifier • Clorox Disinfectant Wipes • Lysol Disinfectant Wipes • Lysol Disinfectant Spray • Dollar General Brand Disinfectant Wipes • Clorox Disinfectant Spray

  10. Materials

  11. Experiment

  12. Preparing Dishes When preparing the petri dishes I heated heat and pour agar and poured the agar into the sterile sealed petri dishes. I barely lifted up the lid when pouring the agar onto the plate so to eliminate the risk of contamination by airborne bacteria. Agar works best in small thin sheets so I poured it about ¼ inch thick in the dishes. I also allowed the dishes to cool and become firm which took 2 hours.

  13. Preparing Dishes

  14. Inoculation I inoculated the dishes by opening a sterile inoculating swab while holding a petri dish in the other hand. I swabbed the test surface then immediately opened the dish and lightly ran the swab across the surface of the agar. I held the lid to dish about 2 inches above the dish when inoculating the agar so not to allow airborne bacteria onto the dish.

  15. Inoculation

  16. Growing I allowed the inoculated plates to then grow in a small room I kept at 99 degrees Fahrenheit and 85% relative humidity. I found in my research that bacteria grows best in these conditions so I used a space heater and humidifier along with a thermometer with humidity gauge on it to make sure that the room was kept stable at these conditions. I let the bacteria grow for 96 hours before making observations and analyzing the plates under a USB microscope.

  17. Observing and Analyzing Plates When analyzing the plates I rated them on a percentage scale on how much of the plate was covered with bacteria. I also rated the disinfectants on how well they eliminated the bacteria.

  18. Research

  19. Research • There are many different types of bacteria. The key way of determining bacteria apart is by identifying rather it is gram positive or gram negative. Bacteria grow in many different conditions depending on that strand of bacteria's specific needs. The largest used way of culturing bacteria is by using agar plates. There are many different types of agar. The most easiest form of agar to use is nutrient agar. Nutrient agar is made of: • Nutrient Broth • Beef Extract • Yeast extract • NaCI • Peptone • Nutrient agar works best because the bacteria grows on the surface and is easily noticed even in very small colonies.

  20. Variables

  21. Variables • Room Temperature • Room Humidity • Airborne Bacteria • Bacteria on Dish From Preparation • Bacteria Already on Dishes

  22. Saftey

  23. Safety • For safety precautions I did the following throughout my experiment: • Were Gloves • Were Masks • Kept Dishes Sealed

  24. Results and Conclusion

  25. Results and Data

  26. Results and Data Contd.

  27. Conclusion In conclusion the living room floor had the most surface bacteria. Also the Clorox spray worked best at eliminating this bacteria. My hypothesis was correct partially because the living room floor had more bacteria on it then any other household surface. But it was incorrect in the fact that I thought the Clorox wipes would work best but the Clorox spay actually was the best of the disinfectants tested.

  28. Future Experiment If I was to have the opportunity to redo this experiment in the future there would only be 3 things I would change. That would be to test more disinfectants and to test more surfaces. I may also try using glass petri dishes instead of the disposable plastic ones that I used to see if that makes a difference in the final outcome. I would also test to see if the bacteria I culture is gram positive or gram negative.

  29. Sources and Acknowledgements

  30. Sources • http://www.mercer.edu/camps/message/summer2001/summer2001-disinfectant.htm • http://www.cbsnews.com/2100-500368_162-2976179.html • http://www.ehow.com/list_6514979_types-household-bacteria.html • http://www.lennox.com/badair/bacteria/ • http://blisstree.com/live/germ-warfare-10-places-household-bacteria-can-ambush-you/ • http://en.wikipedia.org/wiki/Nutrient_agar • http://www.ucmp.berkeley.edu/bacteria/bacteria.html • http://www.britannica.com/EBchecked/topic/48203/bacteria • http://bacteriamuseum.org/cms/ • http://www.medterms.com/script/main/art.asp?articlekey=13954 • http://www.ict-science-to-society.org/pathogenomics/bacteria.htm • http://www.bacterio.cict.fr/ • http://www.blackwellpublishing.com/trun/artwork/Animations/Overview/overview.html • http://www.textbookofbacteriology.net/ • http://www.ibioseminars.org/ • http://pathmicro.med.sc.edu/book/infectious%20disease-sta.htm • http://jb.asm.org/ • http://www.britannica.com/EBchecked/topic/48314/bacteriology

  31. Acknowledgements • Mr. Burris my biology teacher for some helpful tips he provided me. • My mom and dad for some advice on the presentation. • Mrs. Cloran for being so supportive. • Thank you to the judges and coordinators of this event for giving me such a wonderful opportunity.

  32. Bacteria By: Dylan Sexton

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