The flow of a liquid in a 2-in. diameter steel pipe produces a pressure drop due to friction of 60 kPa. The length of pipe is 50 m and the mean velocity is 2 m/s. If the density of the liquid is 1,000 kg/m³, then a. Determine the Reynolds number b. Determine if the flow is laminar or turbulent c. Compute viscosity of the liquid d. Compute the mass flow rate
The flow of a liquid in a 2-in. diameter steel pipe produces a pressure drop due to friction of 60 kPa. The length of pipe is 50 m and the mean velocity is 2 m/s. If the density of the liquid is 1,000 kg/m³, then a. Determine the Reynolds number b. Determine if the flow is laminar or turbulent c. Compute viscosity of the liquid d. Compute the mass flow rate
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Transcribed Image Text:The flow of a liquid in a 2-in. diameter steel pipe produces a pressure drop due to friction
of 60 kPa. The length of pipe is 50 m and the mean velocity is 2 m/s. If the density of the
liquid is 1,000 kg/m³, then
a. Determine the Reynolds number
b. Determine if the flow is laminar or turbulent
c. Compute viscosity of the liquid
d. Compute the mass flow rate
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