Use figure below Question : Water at 20 C is to be pumped through 2300 ft of pipe from reservoir 1 to 2 at a rate of 2.5 ft3/s, as shown in the figure. If the pipe is galvanized iron of diameter 7 in and the pump is 75% efficient, what horsepower pump is needed? Neglect minor losses. HINT : pumped through 2300 ft of pipe from reservoir 1 to 2 at a rate of 2.5 ft3/s, & galvanized iron of diameter 7

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The diagram illustrates a pump system designed to move a liquid from one reservoir to another. It consists of two reservoirs and a connecting pipeline. - **Reservoir 1** (on the left) is the starting point from which the liquid is pumped. - **Pump**: Positioned between the two reservoirs, the pump is responsible for providing the necessary energy to move the liquid uphill. - **Elevation Difference**: There is a vertical height difference of 110 feet between Reservoir 1 and Reservoir 2. - **Pipeline**: The pipeline connecting the two reservoirs has a length of 2300 feet. - **Reservoir 2** (on the right) is the destination point for the liquid. The liquid moves from Reservoir 1 through the pipeline with the aid of the pump, overcoming the elevation difference to reach Reservoir 2. This setup is common in various applications where water or other fluids need to be transported over a distance and elevation.