(31) The initial volume, pressure, and temperature of helium gas trapped in a container with a movable piston are Vị = 3L. P = 150 kPa, and 7, = 300 K. respectively, see Fig. 11.21. If the volume is decreased to Vr = 2.5L and the pressure increases to P = 300 kPa, find the final temperature of the gas assum- ing that it behaves like an ideal gas.
(31) The initial volume, pressure, and temperature of helium gas trapped in a container with a movable piston are Vị = 3L. P = 150 kPa, and 7, = 300 K. respectively, see Fig. 11.21. If the volume is decreased to Vr = 2.5L and the pressure increases to P = 300 kPa, find the final temperature of the gas assum- ing that it behaves like an ideal gas.
Chapter3: The First Law Of Thermodynamics
Section: Chapter Questions
Problem 66P: One of a dilute diatomic gas occupying a volume of 10.00 L expands against a constant pressure of...
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![(31) The initial volume, pressure, and temperature of helium gas trapped in a
container with a movable piston are Vị = 3 L. P = 150 kPa, and 7, = 300 K.
respectively, see Fig. 11.21. If the volume is decreased to Vi = 2.5 L and the
pressure increases to P = 300 kPa, find the final temperature of the gas assum-
ing that it behaves like an ideal gas.
Fig. 11.21 See Exercise (31)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F87ecb135-1c1c-4769-a23f-752fb8df1902%2F444b0b92-a2ea-454e-9942-179678708340%2Frp82ift_processed.jpeg&w=3840&q=75)
Transcribed Image Text:(31) The initial volume, pressure, and temperature of helium gas trapped in a
container with a movable piston are Vị = 3 L. P = 150 kPa, and 7, = 300 K.
respectively, see Fig. 11.21. If the volume is decreased to Vi = 2.5 L and the
pressure increases to P = 300 kPa, find the final temperature of the gas assum-
ing that it behaves like an ideal gas.
Fig. 11.21 See Exercise (31)
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