N = 0 An insulated tank of volume 10+ (10 + N)/ 25 m and with a valve was filled with perfect tri- atomic gas at pressure 10 bar, where N is equal to the last two digitals in your student's ID number. Initially the valve was closed. A paddle wheel was mounted inside the tank and was run by 20 kW engine. The paddle wheel was turn on and at the same time the exit valve was opened. The gas temperature was constant though the whole process (due to very slow flow) and equal to 300 K. Calculate the time needed to decrease the pressure in the tank to 5 bar.
N = 0 An insulated tank of volume 10+ (10 + N)/ 25 m and with a valve was filled with perfect tri- atomic gas at pressure 10 bar, where N is equal to the last two digitals in your student's ID number. Initially the valve was closed. A paddle wheel was mounted inside the tank and was run by 20 kW engine. The paddle wheel was turn on and at the same time the exit valve was opened. The gas temperature was constant though the whole process (due to very slow flow) and equal to 300 K. Calculate the time needed to decrease the pressure in the tank to 5 bar.
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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Transcribed Image Text:N = 0
An insulated tank of volume 10+(10+N)/25 m and with a valve was filled with perfect tri-
atomic gas at pressure 10 bar, where N is equal to the last two digitals in your student's ID
number. Initially the valve was closed. A paddle wheel was mounted inside the tank and was
run by 20 kW engine. The paddle wheel was turn on and at the same time the exit valve was
opened. The gas temperature was constant though the whole process (due to very slow flow)
and equal to 300 K. Calculate the time needed to decrease the pressure in the tank to 5 bar.
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