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Centripetal Force and Bacteria Science Fair ProjectsGravitate Towards Centripetal Force and Bacteria Science Fair Projects
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Middle schoolers explore how centripetal force |
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Force
Force is a common element studied in science fair projects. Before you work on this type of project, however, you need to understand what this force is and how it can be calculated.
Test bacteria on any surface with the Surface Microbes Science Fair Projects Kit: after hand sanitizer, hands, disinfectant.. for example. You can use antibiotics to test the bacteria too.
Anytime you want to test how many bacteria are On Top of a surface like a desk, skin, chicken, computer keyboard, bread dough, a hard piece of chocolate, cheese, inside of an animal's cheek, etc. then use the surface experimenter kit. The kit will let you calculate how many bacteria there are per unit surface area on the object. You can also test for e-coli, however, only the microbe water kit will let you distinguish e. coli from other coliforms and bacteria.
One of the goals for our project was to discover the effects of the centripetal force on bacterial colonies. We wanted to determine whether or not bacteria grown under the centripetal force will become inhibited in colony numbers. We also wanted to discover bacteria's ability to adapt when placed under other forces.
We tested our hypothesis when we recieved permission to work at a college labratory and recieve access to E. coli and bacillus cultures. We used the following materials: 24 nutrient agar plates, 24 sterile inoculation loops, access to bacterial cultures, 1 turntable(able to reach 78 RPM), 1 spotlight, and 2 Celius thermometers. We set the turntable at 78 RPM and taped the experimental plates onto the turntable and placed a Celius thermometer to the side (this is to mantain the optimum bacterial temperature. The controls were placed the controls to the side and positioned the spotlight towards the plates. We practiced basic bacterial streaking methods and made sure that the area and the materials were sterile.
The purpose of conducting this experiment was to distinguish whether or not E. coli's and bacillus's culture growth rates would become inhibited under another force. According to the test results, the longer the incubation time period given to the experimental bacteria, the faster the colony growth rate. The experimental 48 hour time period resulted in larger colony numbers than the regular controls for 48 hours. Although the experimental 24 hour time period displayed a sudden decrease in the colony numbers. By doubling the inbuation time, the bacteria colonies allowed enough time to adapt to the centripetal force that is acting onto the colonies.
In conclusion, the effects of centripetal force is clearly visable for a longer incubation time period. The experimental 48 hour time period allowed the bacteria to adapt to the new force acting upon it. In this case, the centripetal force caused some bacterial colonies to die off therefore leaving the stronger colonies to pass it's genes to the next generation. These stronger genes would continously advance future bacterial generations causing the cycle of acquired bacterial resistance.Therefore bacteria's ability to adapt will allow colonies to survive under other forces and other environments. 3rd party contributor
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