Ideal diatomic gas (y = 1.40 ) has initial temperature of 181 K , initial volume of 0.163 m³ , and initial pressure of 33.0 kPa . (a) The gas expands at constant pressure until its volume reaches 0.338 m³. Find the work done on the gas during this process. W1 kJ (b) After that, the gas is compressed isothermally until its pressure becomes 85.0 kPa . Find the final volume of the gas. V2 = m3 (c) Find the final temperature of the gas. T2 = K
Ideal diatomic gas (y = 1.40 ) has initial temperature of 181 K , initial volume of 0.163 m³ , and initial pressure of 33.0 kPa . (a) The gas expands at constant pressure until its volume reaches 0.338 m³. Find the work done on the gas during this process. W1 kJ (b) After that, the gas is compressed isothermally until its pressure becomes 85.0 kPa . Find the final volume of the gas. V2 = m3 (c) Find the final temperature of the gas. T2 = K
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter21: Heat And The First Law Of Thermodynamics
Section: Chapter Questions
Problem 76PQ
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![Ideal diatomic gas (y = 1.40 ) has initial temperature of 181 K , initial volume of 0.163 m3, and initial pressure of 33.0 kPa .
(a) The gas expands at constant pressure until its volume reaches 0.338 m³. Find the work done on the gas during this process.
W, =
kJ
(b) After that, the gas is compressed isothermally until its pressure becomes 85.0 kPa . Find the final volume of the gas.
V2 =
m
n3
(c) Find the final temperature of the gas.
T2
K](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff3d6c45b-f4ee-4372-9578-a23317449165%2Faa284d3a-2fde-4db9-a59c-41ae0c564e95%2F4b8lkjm_processed.png&w=3840&q=75)
Transcribed Image Text:Ideal diatomic gas (y = 1.40 ) has initial temperature of 181 K , initial volume of 0.163 m3, and initial pressure of 33.0 kPa .
(a) The gas expands at constant pressure until its volume reaches 0.338 m³. Find the work done on the gas during this process.
W, =
kJ
(b) After that, the gas is compressed isothermally until its pressure becomes 85.0 kPa . Find the final volume of the gas.
V2 =
m
n3
(c) Find the final temperature of the gas.
T2
K
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