5. A nozzle that discharges a 60-mm-diameter water jet into the air is on the right end of a horizontal 120-mm- diameter pipe. In the line, the water has a velocity of 4 m/s and a gage pressure of 400 kPa. Find the magnitude and direction of the resultant axial force the water exerts on the nozzle and the head loss in the nozzle. D₁-120mm V₁-4m/s P₁=400kPa F1 Fx CV D₂=60mm V₂=? P₂=0 F₂=0
5. A nozzle that discharges a 60-mm-diameter water jet into the air is on the right end of a horizontal 120-mm- diameter pipe. In the line, the water has a velocity of 4 m/s and a gage pressure of 400 kPa. Find the magnitude and direction of the resultant axial force the water exerts on the nozzle and the head loss in the nozzle. D₁-120mm V₁-4m/s P₁=400kPa F1 Fx CV D₂=60mm V₂=? P₂=0 F₂=0
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
A nozzle that discharges a 60-mm-diameter water jet into the air is on the right end of a horizontal 120-mm- diameter pipe. In the line, the water has a velocity of 4 m/s and a gage pressure of 400 kPa. Find the magnitude and direction of the resultant axial force the water exerts on the nozzle and the head loss in the nozzle.
Transcribed Image Text:D₁-120mm
V₁-4m/s
P₁-400kPa
F₁
Fx
CV
D₂-60mm
V₂=?
P=0
F₂=0
Transcribed Image Text:5.
A nozzle that discharges a 60-mm-diameter water jet into
the air is on the right end of a horizontal 120-mm-
diameter pipe. In the line, the water has a velocity of 4
m/s and a gage pressure of 400 kPa. Find the magnitude
and direction of the resultant axial force the water exerts
on the nozzle and the head loss in the nozzle.
D₁-120mm
V₁4m/s
P₁-400kPa F₁
FX
CV
D₂-60mm
V₂=?
F₂=0
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