Please solve this.. (b) Consider two different fluids flowing in a round tube of length 1 m anddiameter 5mm. Calculate the Reynolds Number for each of the fluid andestablish whether the flow is Laminar or Turbulent.L = 1m.FlowD = 5 mmFigure Q4 (b)(1)Air (kinematic viscosity, v = 1.79 x 10 m/s at 50°C) with a speedof 12 m/s and(ii)Water (u = 1.14 x 103 N s/m? at 15°C) with a mass flow rate of 8%3Dg/s.(ii)Justify the reason for increase in viscosity of gasses with increasein its temperature.

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Air (kinematic viscosity, v = 1.79 × 10 m?/s at 50°C) with a speed of 12 m/s and Water (u = 1.14 x 103 N s/m2 at 15°C) with a mass flow rate of 8 %3D g/s. Justify the reason for increase in viscosity of gasses with increase in its temperature.

Air (kinematic viscosity, v = 1.79 × 10 m?/s at 50°C) with a speed of 12 m/s and Water (u = 1.14 x 103 N s/m2 at 15°C) with a mass flow rate of 8 %3D g/s. Justify the reason for increase in viscosity of gasses with increase in its temperature.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Question

Please solve this..

(b) Consider two different fluids flowing in a round tube of length 1 m and
diameter 5mm. Calculate the Reynolds Number for each of the fluid and
establish whether the flow is Laminar or Turbulent.
L = 1m.
Flow
D = 5 mm
Figure Q4 (b)
(1)
Air (kinematic viscosity, v = 1.79 x 10 m/s at 50°C) with a speed
of 12 m/s and
(ii)
Water (u = 1.14 x 103 N s/m? at 15°C) with a mass flow rate of 8
%3D
g/s.
(ii)
Justify the reason for increase in viscosity of gasses with increase
in its temperature.

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