A tire develops a slow leak ( assume constant volume) in which the pressure decreases from 50 psia to 40 psia. The area of the hole in the tire is 8(10)-8f2 . The air volume in the tire is 0.6f3 , and the temperature remains constant at 60 degrees F. The mass flow rate of air is given by =0.7 PA / √RT. Determine the time it takes for the pressure decrease. The gas constant R=1716lb/sl/R. The equation of state for an ideal gas is P = pRT
A tire develops a slow leak ( assume constant volume) in which the pressure decreases from 50 psia to 40 psia. The area of the hole in the tire is 8(10)-8f2 . The air volume in the tire is 0.6f3 , and the temperature remains constant at 60 degrees F. The mass flow rate of air is given by =0.7 PA / √RT. Determine the time it takes for the pressure decrease. The gas constant R=1716lb/sl/R. The equation of state for an ideal gas is P = pRT
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 tire develops a slow leak ( assume constant volume) in which the pressure decreases from 50 psia to 40 psia. The area of the hole in the tire is 8(10)-8f2 . The air volume in the tire is 0.6f3 , and the temperature remains constant at 60 degrees F. The mass flow rate of air is given by =0.7 PA / √RT. Determine the time it takes for the pressure decrease. The gas constant R=1716lb/sl/R. The equation of state for an ideal gas is P = pRT
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