Consider two liquids of densities p₁ = 1000 kg/m³ and p2 = 800 kg/m³ that are initially flowing in pipe1 and pipe2, respectively. The two flow streams are mixed when they merge into the horizontal pipe3 as shown in the figure. The flow rates in the three pipes are Q₁ = 10-2 m³/s, Q₂ = 2.5x10-3 m³/s and Q3 = 1.25x10-2 m³/s and the viscosities of all three fluids are equal: μ₁ = μ2 = H3 = 5.1x10-4 Pa.s. Q1 Q2 Pipe2 2.1 Pa/m 6.1 Pa/m Determine the pressure drop per unit length (-AP/L) in pipe3 if the pipe is assumed to be smooth and to have a diameter equal to 20 cm. 10.1 Pa/m Pipel 14.1 Pa/m Pipe3 Q3

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Consider two liquids of densities p₁ = 1000 kg/m³ and p₂ = 800 kg/m³ that are
initially flowing in pipe1 and pipe2, respectively. The two flow streams are mixed
when they merge into the horizontal pipe3 as shown in the figure. The flow rates in
the three pipes are Q₁ = 10-² m³/s, Q₂ = 2.5x10-³ m³/s and Q3 = 1.25x10-² m³/s
and the viscosities of all three fluids are equal: μ₁ = μ₂ = µ3 = 5.1x10-4 Pa.s.
Q1
Q2 Pipe2
2.1 Pa/m
6.1 Pa/m
Determine the pressure drop per unit length (-AP/L) in pipe3 if the pipe is assumed
to be smooth and to have a diameter equal to 20 cm.
10.1 Pa/m
Pipel
14.1 Pa/m
Pipe3
Q3
Transcribed Image Text:Consider two liquids of densities p₁ = 1000 kg/m³ and p₂ = 800 kg/m³ that are initially flowing in pipe1 and pipe2, respectively. The two flow streams are mixed when they merge into the horizontal pipe3 as shown in the figure. The flow rates in the three pipes are Q₁ = 10-² m³/s, Q₂ = 2.5x10-³ m³/s and Q3 = 1.25x10-² m³/s and the viscosities of all three fluids are equal: μ₁ = μ₂ = µ3 = 5.1x10-4 Pa.s. Q1 Q2 Pipe2 2.1 Pa/m 6.1 Pa/m Determine the pressure drop per unit length (-AP/L) in pipe3 if the pipe is assumed to be smooth and to have a diameter equal to 20 cm. 10.1 Pa/m Pipel 14.1 Pa/m Pipe3 Q3
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