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Table of Contents Title Purpose Background Hypothesis and Test Results Analysis Conclusion. Element 935. Team Members: Huni Yi Ben Dye Andrew Ross Eddie Rangel. Purpose.
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Table of Contents • Title • Purpose • Background • Hypothesis and Test • Results • Analysis • Conclusion Element 935 • Team Members: • Huni Yi • Ben Dye • Andrew Ross • Eddie Rangel
Purpose We were wondering if mirrors affected the temperature of liquids at certain altitudes, so we decided to test it out.
Background We researched past experiments, mirrors and liquids. We took these facts, and brought them together in our best ability to create a hypothesis.
Hypothesis and Test We believed that the mirrored liquids temperature’s would change drastically at different altitudes compared to the normal liquids. This is the hypothesis that we brought together after researching mirrors and liquids.
Results The data that we received during the time that the balloon was in the air was very anti-climatic. We predicted that the results would change dramatically, but they barely changed at all. The results we got showed that as the balloon went in the air, it got fairly colder, but it didn’t change as much as we thought it would. The liquids surrounded by mirrors were about 1 degree Celsius hotter for the water, and about .5 degrees Celsius hotter for the shampoo.
Analysis The mirrors did affect the temperature of the liquids by about an average of .75 degrees Celsius, but it is not enough to change something drastically.
Conclusion Overall, the mirrored sunlight barely affected the liquids, and didn’t change it drastically enough to be noticed in the world of Science. Mirrors do not affect liquid temperature enough for someone to notice. We predicted wrong, and we now know that mirrors do not affect the temperature of liquids drastically.