Wednesday, September 11, 2019
As temperature increases the level of turbidity increases Lab Report
As temperature increases the level of turbidity increases - Lab Report Example 107). It can be said that it is the measure of how much light can pass on the water, and this may be influenced by suspending matter in the water; these may be sediments, organic matter, eroded soil, silt, industrial waste to mention a few. The particles resting at the bottom of water may also be stirred up by water movement, people or storm runoff. With levels of turbidity may indicate the water is unhealthy for aquatic life as light will not easily penetrate to the bottom. Introduction:Temperature may determine the conditions in which matter exists. Minute temperature changes in water may change the conditions and thus make the aquatic life hard to survive in. Temperature changes may also result from deforestation thus allowing more sun to directly shine in the water. Factories and other power plants use water as a coolant and later discharge it back to water sources, this changes the water temperatures. The above reasons were the inspiration for this experiment. The results: The results demonstrate that at 40 degrees Celsius the lowest level of turbidity were recorded. An average reading of 21.65 in the turbidimeter was recorded. At 10 degrees Celsius an average turbidity of 21.65 was noted, at 30 degrees Celsius an average of 21.72 value was recorded, our control was 20 degree Celsius which recorded a reading of 22.38 Conclusion: My hypothesis was that when temperatures increase turbidity of water also increases, this hypothesis should not be accepted as the results recorded did not show any correlation between the water samples taken and the level of turbidity. Recommendations: In the future this experiment should be done in a well controlled environment where the surrounding or confounding variables are well controlled so that they do not have an influence on the experiment. Parker, Gary, and Coastal River. River, Coastal, and Estuarine Morphodynamics: RCEM 2005, Proceeding of the 4th IAHR Symposium on River, Coastal, and Estuarine
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