. A fluid with density ρ = 930 kg/m3 and viscosity η = 0.30 × 10−2 Pa · s flows in a pipe. The pressure drop across the pipe is ∆P = 25 kPa and the length of the pipe is L = 1.5 m. You measure that a mass m = 10.2 kg of fluid flows out of the pipe over a duration of ∆t = 8.5 s. (a) Determine the volume of fluid that flowed out of the pipe over the 8.5 s duration. (b) Determine the volume flow rate. (c) Determine the radius of the pipe. Show all your work.
. A fluid with density ρ = 930 kg/m3 and viscosity η = 0.30 × 10−2 Pa · s flows in a pipe. The pressure drop across the pipe is ∆P = 25 kPa and the length of the pipe is L = 1.5 m. You measure that a mass m = 10.2 kg of fluid flows out of the pipe over a duration of ∆t = 8.5 s. (a) Determine the volume of fluid that flowed out of the pipe over the 8.5 s duration. (b) Determine the volume flow rate. (c) Determine the radius of the pipe. Show all your work.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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2. A fluid with density ρ = 930 kg/m3 and viscosity η = 0.30 × 10−2 Pa · s flows in a pipe. The pressure drop across the pipe is ∆P = 25 kPa and the length of the pipe is L = 1.5 m. You measure that a mass m = 10.2 kg of fluid flows out of the pipe over a duration of ∆t = 8.5 s.
(a) Determine the volume of fluid that flowed out of the pipe over the 8.5 s duration.
(b) Determine the volume flow rate.
(c) Determine the radius of the pipe.
Show all your work.
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