A steady flow of room temperature water travels down at 400 L/s through the expanding pipe section shown to the right. The diameters are di = 20 cm and dz = 30 cm. Pressures are measured so P= 170 kPa at the top and P = 106 kPa at the bottom. Use B=1. The weight of water and pipe may be neglected as negligible. Note: Do not use energy to try to calculate/check pressures, you don't know the vertical height, so you can't. Use what's given. Sketch the Free Body Diagram, label all forces and fluxes a. clearly. b. What is the net force on the bracket Fa needed to hold the pipe in place?
A steady flow of room temperature water travels down at 400 L/s through the expanding pipe section shown to the right. The diameters are di = 20 cm and dz = 30 cm. Pressures are measured so P= 170 kPa at the top and P = 106 kPa at the bottom. Use B=1. The weight of water and pipe may be neglected as negligible. Note: Do not use energy to try to calculate/check pressures, you don't know the vertical height, so you can't. Use what's given. Sketch the Free Body Diagram, label all forces and fluxes a. clearly. b. What is the net force on the bracket Fa needed to hold the pipe in place?
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 steady flow of room temperature
![A steady flow of room temperature water travels down at 400 L/s through the
expanding pipe section shown to the right. The diameters are di = 20 cm and
dz = 30 cm. Pressures are measured so P= 170 kPa at the top and P = 106
kPa at the bottom. Use B=1. The weight of water and pipe may be neglected
as negligible. Note: Do not use energy to try to calculate/check pressures, you
don't know the vertical height, so you can't. Use what's given.
Sketch the Free Body Diagram, label all forces and fluxes
a.
clearly.
b.
What is the net force on the bracket Fa needed to hold the
pipe in place?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9ae637d5-a5a8-4d30-a7a6-afcf08ae6c4d%2F997be579-bb58-4cf2-b07c-01d444041a9a%2Fkol9pvg_processed.png&w=3840&q=75)
Transcribed Image Text:A steady flow of room temperature water travels down at 400 L/s through the
expanding pipe section shown to the right. The diameters are di = 20 cm and
dz = 30 cm. Pressures are measured so P= 170 kPa at the top and P = 106
kPa at the bottom. Use B=1. The weight of water and pipe may be neglected
as negligible. Note: Do not use energy to try to calculate/check pressures, you
don't know the vertical height, so you can't. Use what's given.
Sketch the Free Body Diagram, label all forces and fluxes
a.
clearly.
b.
What is the net force on the bracket Fa needed to hold the
pipe in place?
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