An ideal gas at pressure 200 kPa, temperature 20 oC and with a velocity 5.0 m/s enters a cylindrical pipe of diameter 28 cm and exits at 180 kPa and 40 oC. Assuming the air is heated as it flows through the pipe and that the diameter of the pipe is the same at both the inlet and outlet. Calculate the velocity of the gas (in m/s) out of the pipe. Select one: a. 1.9 b. 7.9 c. 6.9 d. 2.9 e. 4.9 f. 5.9 g. None of the options h. 5.0
An ideal gas at pressure 200 kPa, temperature 20 oC and with a velocity 5.0 m/s enters a cylindrical pipe of diameter 28 cm and exits at 180 kPa and 40 oC. Assuming the air is heated as it flows through the pipe and that the diameter of the pipe is the same at both the inlet and outlet. Calculate the velocity of the gas (in m/s) out of the pipe. Select one: a. 1.9 b. 7.9 c. 6.9 d. 2.9 e. 4.9 f. 5.9 g. None of the options h. 5.0
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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An ideal gas at pressure 200 kPa, temperature 20 oC and with a velocity 5.0 m/s enters a cylindrical pipe of diameter 28 cm and exits at 180 kPa and 40 oC. Assuming the air is heated as it flows through the pipe and that the diameter of the pipe is the same at both the inlet and outlet.
Calculate the velocity of the gas (in m/s) out of the pipe.
Select one:
a. 1.9
b. 7.9
c. 6.9
d. 2.9
e. 4.9
f. 5.9
g. None of the options
h. 5.0
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