Tuesday, October 15, 2019

Coursework Example | Topics and Well Written Essays - 500 words - 5

Coursework Example Illustration 1 above shows a Heron’s Fountain schematic drawing. Three major parts of the Heron’s fountain facilitate the functioning of the fountain. In the schematic diagram, there are three components referred as Basins A to C. Joining the basins together are vessels that allow air and fluid pressure to be transferred through. The connection of the parts as shown in illustration 1 show that the apparatus should make use of supporting mechanism in order to hold each component or part to the respective position. With respect to Basin B, the top of the component should be sealed off and then water is poured into the basin. Basin C is left empty and connection hose is hooked to join the two basins/vessels as illustrated in the figure above (illustration 1). Additionally, Basin A is placed above Basin B and a joining hose to Basin B is fitted connecting the two. Basin A and Basin C are connected as well using another hose as shown in the figure above. When water is poured into Basin A, it flows through the hose connecting Basin A with Basin C and collects in Basin C. When the water flows into C, air in C is replaced and hydrostatic pressure results (P2=rho gh2) adding to the primary atmospheric pressure (Patm) of C’s air volume. Following the flow of air from C as result of the Pascal’s principle and forces the water in vessel or Basin B to move up the hose connecting B with A. There is action and reaction between pressure exerted by the air and the primary atmospheric pressure leading to hydrostatic pressure (P1 = rho gh1). Air in basin B and C is compressed and drives the water to shoot from the upper basin thus resulting in a continuous movement of water to run the fountain (Brown, 2010). Heron’s Fountain considered various principles and concepts of physics. Among the most applicable are Pascal’s and Bernoulli’s principles. While Pascal’s principle explains the pressure changes as a

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