10. Water at 25 °C is transferred 10 m high to the first floor using stainless steel pipes (e = 2 x 106 m) with a diameter of 2 cm. If the water leaves through a faucet of diameter 1.3 cm at a flow rate of 8 x 10+ m³/s. Determine the required pressure at point 1 (P:) if: a) All viscous effects are ignored b) Only major losses are considered c) All loses are considered (major + minor) Assume that the density and viscosity of water at 25 °C is 997 kg/m and 0.891 x 10-3 kg/m.s, respectively. You can use relevant tables and Moody chart to find the required properties. L=4m L=4 m K, = 2.5 10 m K15 L=4m K=0.5 K=8 Water L-5m L-4m L-4m

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10. Water at 25 °C is transferred 10 m high to the first floor using stainless steel pipes (e = 2 x 10-6 m) with a diameter of 2 cm. If the water leaves through a faucet of diameter 1.3 cm at a flow rate of 8 x 104 m³/s. Determine the required pressure at point 1 (P1) if: a) All viscous effects are ignored b) Only major losses are considered c) All loses are considered (major + minor) Assume that the density and viscosity of water at 25 °C is 997 kg/m and 0.891 x 10-3 kg/m.s, respectively. You can use relevant tables and Moody chart to find the required properties. L=4m L-4 m L= 4 m K, = 2.5 10 m K- 1.5 K, = 0.5 L= 4 m K, 8 Water L=5m L%3D4M