a) Calculate the maximum flux the liquid water can have ( η = 0.891 cP and ρ = 0.998 g/mL a 20 ºC) when flowing through a 2 mm diameter tube, in the laminar regime. b) If the pressure when entering the tube is 1 bar, how many meters will it need for the pressure to decrease a 10%? Data: dina/cm3 = 10 Pa/m; 1 bar = 105 Pa. Results: 2.81 cm3/s, 1.57 m
a) Calculate the maximum flux the liquid water can have ( η = 0.891 cP and ρ = 0.998 g/mL a 20 ºC) when flowing through a 2 mm diameter tube, in the laminar regime. b) If the pressure when entering the tube is 1 bar, how many meters will it need for the pressure to decrease a 10%? Data: dina/cm3 = 10 Pa/m; 1 bar = 105 Pa. Results: 2.81 cm3/s, 1.57 m
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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a) Calculate the maximum flux the liquid water can have ( η = 0.891 cP and ρ = 0.998 g/mL a 20 ºC) when flowing through a 2 mm diameter tube, in the laminar regime.
b) If the pressure when entering the tube is 1 bar, how many meters will it need for the pressure to decrease a 10%? Data: dina/cm3 = 10 Pa/m; 1 bar = 105 Pa.
Results: 2.81 cm3/s, 1.57 m
Transcribed Image Text:a) Calculate the maximum flux the liquid water can have ( ŋ = 0.891 cP and p = 0.998 g/
La 20 °C) when flowing through a 2 mm diameter tube, in the laminar regime.
If the pressure when entering the tube is 1 bar, how many meters will it need for the
essure to decrease a 10%? Data: dina/cm³ = 10 Pa/m; 1 bar= 105 Pa.
%3D
esults: 2.81 cm³/s, 1.57 m
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