Two kg of air, initially at 500 kPa, 350K, and 4 kg of carbon monoxide (CO) initially at 200kPa, 450K are inside a rigid, well-insulated container and separated by a partition as shown in figure below. The partition is released to move freely and allow the transfer of heat from one gas to the other without energy storage in the partition itself. The air and CO each behave as ideal gases with constant specific heats (CVo) of 0.717kj/kg-k and 0.744 kj/kg-k and gas constants (R) of 0.287 kJ/kg-k and 0.2968 kJ/kg-k, respectively. The heat is transferred from one gas to another until both gasses reach the same final pressure and temperature. At this equilibrium state determine: (m³) A. Total volume of the container: V =
Two kg of air, initially at 500 kPa, 350K, and 4 kg of carbon monoxide (CO) initially at 200kPa, 450K are inside a rigid, well-insulated container and separated by a partition as shown in figure below. The partition is released to move freely and allow the transfer of heat from one gas to the other without energy storage in the partition itself. The air and CO each behave as ideal gases with constant specific heats (CVo) of 0.717kj/kg-k and 0.744 kj/kg-k and gas constants (R) of 0.287 kJ/kg-k and 0.2968 kJ/kg-k, respectively. The heat is transferred from one gas to another until both gasses reach the same final pressure and temperature. At this equilibrium state determine: (m³) A. Total volume of the container: V =
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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![Two kg of air, initially at 500 kPa, 350K, and 4 kg of carbon monoxide (CO) initially at 200kPa, 450K
are inside a rigid, well-insulated container and separated by a partition as shown in figure below. The
partition is released to move freely and allow the transfer of heat from one gas to the other without
energy storage in the partition itself. The air and CO each behave as ideal gases with constant
specific heats (CVo) of 0.717kj/kg-k and 0.744 kj/kg-k and gas constants (R) of 0.287 kJ/kg-k and
0.2968 kJ/kg-k, respectively. The heat is transferred from one gas to another until both gasses reach
the same final pressure and temperature. At this equilibrium state determine:
(m³)
A. Total volume of the container: V =
B. Temperature T2 =
C. Pressure P2 =
Show your detailed work on paper.
(k)
со
k(Pa)
Insulation
Movable partition
Air](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb27ed1be-5863-4539-a46f-76ef54927e16%2F9d4f7d3b-c83b-4feb-8ae1-6c6914d6f6f1%2Fmwmn3l_processed.png&w=3840&q=75)
Transcribed Image Text:Two kg of air, initially at 500 kPa, 350K, and 4 kg of carbon monoxide (CO) initially at 200kPa, 450K
are inside a rigid, well-insulated container and separated by a partition as shown in figure below. The
partition is released to move freely and allow the transfer of heat from one gas to the other without
energy storage in the partition itself. The air and CO each behave as ideal gases with constant
specific heats (CVo) of 0.717kj/kg-k and 0.744 kj/kg-k and gas constants (R) of 0.287 kJ/kg-k and
0.2968 kJ/kg-k, respectively. The heat is transferred from one gas to another until both gasses reach
the same final pressure and temperature. At this equilibrium state determine:
(m³)
A. Total volume of the container: V =
B. Temperature T2 =
C. Pressure P2 =
Show your detailed work on paper.
(k)
со
k(Pa)
Insulation
Movable partition
Air
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