4. Water flows through a pipe with 0.2 m. diameter. To measure water velocity at the center of the pipe, a pitot tube and a wall pressure tap are installed and connected to a mercury manometer. The manometer gives a differential height of 10 cm. Calculate the water velocity al the center of the pipe (in m/s). Given: • Density of water = 1000 kg/m': Viscosity of water= 1x10' kg/m.s • Density of mercury = 13,600 kg/m' Water 10 cm Mercury
4. Water flows through a pipe with 0.2 m. diameter. To measure water velocity at the center of the pipe, a pitot tube and a wall pressure tap are installed and connected to a mercury manometer. The manometer gives a differential height of 10 cm. Calculate the water velocity al the center of the pipe (in m/s). Given: • Density of water = 1000 kg/m': Viscosity of water= 1x10' kg/m.s • Density of mercury = 13,600 kg/m' Water 10 cm Mercury
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Transcribed Image Text:4. Water flows through a pipe with 0.2 m. diameter. To measure water velocity at the center of
the pipe, a pitot tube and a wall pressure tap are installed and connected to a mcrcury
manometer. The manometer gives a differential height of 10 cm. Calculate the water velocity
at the center of the pipe (in m/s).
Given:
• Density of water = 1000 kg/m; Viscosity of water 1x10 kg/m.s
• Density of mereury = 13,600 kg/m'
Water
[10 cm
Mercury
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