Water discharges into the atmosphere through the device shown below. You are given the gage pressure of the water at the entrance to the device. You are given two velocities on the figure. You are given the cross-sectional area for each of the three piping segments on the figure. You may neglect any frictional or gravitational effects. A = 0.040 m² 70 kPa 7.7 m/s Flange 6.2 m/s A = 0.075 m2 43° A = 0.025 m2 V (2.a) What is the velocity [ m/s ] of the water at the angled exit? (2.b) What is x-component of the force [ N] (and direction) required to hold this device in place (provided by the flange)?
Water discharges into the atmosphere through the device shown below. You are given the gage pressure of the water at the entrance to the device. You are given two velocities on the figure. You are given the cross-sectional area for each of the three piping segments on the figure. You may neglect any frictional or gravitational effects. A = 0.040 m² 70 kPa 7.7 m/s Flange 6.2 m/s A = 0.075 m2 43° A = 0.025 m2 V (2.a) What is the velocity [ m/s ] of the water at the angled exit? (2.b) What is x-component of the force [ N] (and direction) required to hold this device in place (provided by the flange)?
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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![Water discharges into the atmosphere through the device shown below. You
are given the gage pressure of the water at the entrance to the device. You
are given two velocities on the figure. You are given the cross-sectional
area for each of the three piping segments on the figure.
You may neglect any frictional or gravitational effects.
A = 0.040 m²
70 kPa
7.7 m/s
Flange
6.2 m/s
A = 0.075 m²
43°
A = 0.025 m²
(2.a) What is the velocity [ m/s ] of the water at the angled exit?
(2.b) What is x-component of the force [ N ] (and direction) required to
hold this device in place (provided by the flange)?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe5d528f6-f704-4253-8470-44f2fbc0de86%2F63ea73f2-624c-4510-bf1f-86b775d2b569%2Fvgh53q_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Water discharges into the atmosphere through the device shown below. You
are given the gage pressure of the water at the entrance to the device. You
are given two velocities on the figure. You are given the cross-sectional
area for each of the three piping segments on the figure.
You may neglect any frictional or gravitational effects.
A = 0.040 m²
70 kPa
7.7 m/s
Flange
6.2 m/s
A = 0.075 m²
43°
A = 0.025 m²
(2.a) What is the velocity [ m/s ] of the water at the angled exit?
(2.b) What is x-component of the force [ N ] (and direction) required to
hold this device in place (provided by the flange)?
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