6) Turbulent water flows from a tank to a pipe. The head loss relationship in the pipe can be 25 (-) (). What is the discharge of water? described as h₁=0.025 몰 Water T = 60°F Elevation 100 ft D = I ft ↓ ↑ L = 1000 ft Elevation 60 ft 6 in. diameter jet

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**Problem 6: Flow and Head Loss in a Pipe System** A system in which turbulent water flows from a tank to a pipe is represented in this problem. The relationship describing head loss in the pipe is given by the equation: \[ h_L = 0.025 \left( \frac{L}{D} \right) \left( \frac{V^2}{2g} \right) \] *Objective*: Determine the discharge of water from the pipe. **Diagram Explanation** - **Tank**: Contains water at a temperature of \( T = 60^\circ F \). - **Elevations**: - Water surface in the tank is at an elevation of 100 feet. - The outlet of the pipe, where the water exits as a jet, is at an elevation of 60 feet. - **Pipe Details**: - Pipe diameter \( D = 1 \) ft (feet). - Pipe length \( L = 1000 \) ft. - **Jet Characteristics**: The water exits as a 6-inch diameter jet. This setup models the flow of water from the tank through a horizontal pipe, and the task is to calculate the water discharge, utilizing the given formula for head loss and considering the mentioned parameters of the system.