t = 15 [°C] & P = 582,2 [kPa] (abs) Tatm = 25 [°C]; Patm = 101,325 [kPa] An ideal gas (Air) flows isentropic from a large tank where the air is maintained at a temperature and pressure of 15 [°C] and 582.2 [kPa](abs) respectively. The atmospheric temperature and pressure are 25 [°C] and 101,325 [kPa] abs. Assume the exit pressure is atmospheric conditions. 1) Determine the duct exit Mach number and velocity
t = 15 [°C] & P = 582,2 [kPa] (abs) Tatm = 25 [°C]; Patm = 101,325 [kPa] An ideal gas (Air) flows isentropic from a large tank where the air is maintained at a temperature and pressure of 15 [°C] and 582.2 [kPa](abs) respectively. The atmospheric temperature and pressure are 25 [°C] and 101,325 [kPa] abs. Assume the exit pressure is atmospheric conditions. 1) Determine the duct exit Mach number and velocity
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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![t = 15 [°C] &
P = 582,2 [kPa](abs)
T.
= 25 [°C];
P = 101,325 [kPa]
atm
atm
An ideal gas (Air) flows isentropic from a large tank where the air is maintained at a
temperature and pressure of 15 [°C] and 582.2 [kPa](abs) respectively. The
atmospheric temperature and pressure are 25 [°C] and 101,325 [kPa] abs. Assume the
exit pressure is atmospheric conditions.
1) Determine the duct exit Mach number and velocity](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa36211ff-413d-45db-8330-03ac493e19cc%2F469875f7-276c-43a4-8535-5d6a3a035cdd%2F2s8k63r_processed.png&w=3840&q=75)
Transcribed Image Text:t = 15 [°C] &
P = 582,2 [kPa](abs)
T.
= 25 [°C];
P = 101,325 [kPa]
atm
atm
An ideal gas (Air) flows isentropic from a large tank where the air is maintained at a
temperature and pressure of 15 [°C] and 582.2 [kPa](abs) respectively. The
atmospheric temperature and pressure are 25 [°C] and 101,325 [kPa] abs. Assume the
exit pressure is atmospheric conditions.
1) Determine the duct exit Mach number and velocity
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