A rigid container (Figure) whose volume is unknown is divided into two parts by a partition. One side of the container contains an ideal gas at 927°C. The other side is under vacuum and has a volume twice that of the part containing the gas. The gap is then removed, and the gas expands to fill the entire container. Finally, heat is applied to the gas until the pressure is equal to the initial pressure. Determine the final temperature of the gas.
A rigid container (Figure) whose volume is unknown is divided into two parts by a partition. One side of the container contains an ideal gas at 927°C. The other side is under vacuum and has a volume twice that of the part containing the gas. The gap is then removed, and the gas expands to fill the entire container. Finally, heat is applied to the gas until the pressure is equal to the initial pressure. Determine the final temperature of the gas.
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 rigid container (Figure) whose volume is unknown is divided into two parts by a partition. One side of the container contains an ideal gas at 927°C. The other side is under vacuum and has a volume twice that of the part containing the gas. The gap is then removed, and the gas expands to fill the entire container. Finally, heat is applied to the gas until the pressure is equal to the initial pressure.
Determine the final temperature of the gas.
Transcribed Image Text:Gas ideal
927 °C
V₂
Al vacío
2V₂
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