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Saturday, April 20, 2019

Thermodynamics and fluids mechanics Lab Report Example | Topics and Well Written Essays - 1000 words

Thermodynamics and fluids mechanics - research lab Report ExampleThe corresponding force F, can be found by taking the arcsecond approximately the pivot of the jockey. The outgo y, is the position of the jockey. Momentum was found by multiplying Mass Flow measure by the speed of the leaf blade.As before, the corresponding force F, was found by taking the moment about the pivot of the jockey. The distance y, represents the position of the jockey. Similarly, Momentum = Mass Flow Rate multiplied by the Velocity of the vane.As before, the corresponding force F, was found by taking the moment about the pivot of the jockey. The distance y, represent the position of the jockey. Similarly, Momentum = Mass Flow Rate multiplied by the Velocity of the vaneThe only difference that is evident is only in the use of characters, otherwise, the formulas are just the same. U in the possible action equation represents initial velocity just like the v in the experimental equation. spot a repres ents the acceleration force (gravitational force) and s the distance covered (Cengel & Cimbala, 2009). The major difference between the theory and experiment performed is on the values obtained. For example, some values were not consistent as expected and eon plotting the graph, the points were expected to be in a straight line, which was not the case. A line of best prospect was drawn in order make the line straight.Inaccuracy of the graph and slander data manipulation were receivable to some sources. The sources of errors could have been due to in improve timing. When determining the time interval, it could have been difficult to determine the correct interval. Another source could have been due to the incorrect measurement of volume of piddle collected. This could have brought wrong Mass Flow Rate hence giving wrong Momentum.For the case of hemispherical vane, the velocity of the water jet passing the vane was the same as that hitting it. From the data of the first trial, t he velocity leaving was found to be

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