In the system shown, the water discharge flow rate of 0.0025 m³/s is delivered through the 8 cm asphalted cast iron pipe? €=0.12 Calculate the total losses in the pipe For minor losses, take K for the Entrance: 0.34 Exit: 0.24 Open global Valve: 0.44 Bend radius: 0.04 Elbow = 0.14 Half open gate valve: 0.64 Water density=1000 kg/m³ and viscosity is 0.001 N s / m² Use your last three digits of your ID number for the pipe length in m 2 22 = 5 m Sharp entrance Open globe valve Screwed regular 90° elbow bend radius 8 cm diameter Sharp exit O Half-open gate valve 2₁ = 20 m

In the system shown, the water discharge flow rate of 0.0025 m³/s is delivered through the 8 cm asphalted cast iron pipe? €=0.12 Calculate the total losses in the pipe For minor losses, take K for the Entrance: 0.34 Exit: 0.24 Open global Valve: 0.44 Bend radius: 0.04 Elbow = 0.14 Half open gate valve: 0.64 Water density=1000 kg/m³ and viscosity is 0.001 N s / m² Use your last three digits of your ID number for the pipe length in m 2 22 = 5 m Sharp entrance Open globe valve Screwed regular 90° elbow bend radius 8 cm diameter Sharp exit O Half-open gate valve 2₁ = 20 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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Question

Q44

Use your last three digits of your ID number for the pipe length in m

=388

In the system shown, the water discharge flow rate of 0.0025 m³/s is delivered through the 8 cm asphalted cast iron pipe? €=0.12
Calculate the total losses in the pipe
For minor losses, take K for the
Entrance: 0.34
Exit: 0.24
Open global Valve: 0.44
Bend radius: 0.04
Elbow = 0.14
Half open gate valve: 0.64
Water density=1000 kg/m³ and viscosity is 0.001 N s / m²
Use your last three digits of your ID number for the pipe length in m
2₂ = 5 m
Sharp
entrance
Open globe
valve
Screwed
regular
90° elbow
bend radius
8 cm diameter
Sharp
exit
Half-open
gate valve
2₁ = 20 m

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