Part B A container holds a sample of ideal gas in thermal equilibrium, as shown in the figure. (Figure 1) One end of the container is sealed with a piston whose head is perfectly free to move, unless it is locked in place. The walls of the container readily allow the transfer of energy via heat, unless the piston is insulated from its surroundings. Starting from equilibrium at point 0, what point on the pV diagram will describe the ideal gas after the following process? "Immerse the container into a large water bath at the same temperature, and very slowly push the piston head further into the container." > View Available Hint(s) O point 1 O point 2 O point 3 O point 4 O point 5 O point 6 O point 7 O point 8 Submit Previous Answers X Incorrect; Try Again; 4 attempts remaining The volume of the gas cannot remain constant because the piston head has moved further into the container. Part C Starting from equilibrium at point 0, what point on the pV diagram will describe the ideal gas after the following process? "Lock the piston head place and plunge the container into water that is colder than the gas." O point 1 O point 2 O point 3 O point 4 O point 5 O point 6 O point 7 O point 8 Submit Request Answer Part D Starting from equilibrium at point 0, what point on the pV diagram will describe the ideal gas after the following process? "The piston is now insulated from its surroundings. Pull the piston head further out of the container." • View Available Hint(s) O point 1 Figure < 2 of 2 > O point 2 O point 3 Isotherms O point 4 O point 5 O point 6 O point 7 O point 8 Submit ol

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Part B
A container holds a sample of ideal gas in thermal equilibrium, as shown in the
figure. (Figure 1) One end of the container is sealed with a piston whose head is
perfectly free to move, unless it is locked in place. The walls of the container readily
allow the transfer of energy via heat, unless the piston is insulated from its
surroundings.
Starting from equilibrium at point 0, what point on the pV diagram will describe the ideal gas after the following process?
"Immerse the container into a large water bath at the same temperature, and very slowly push the piston head further into the container."
• View Available Hint(s)
O point 1
O point 2
O point 3
O point 4
O point 5
O point 6
O point 7
O point 8
Submit
Previous Answers
X Incorrect; Try Again; 4 attempts remaining
The volume of the gas cannot remain constant because the piston head has moved further into the container.
Part C
Starting from equilibrium at point 0, what point on the pV diagram will describe the ideal gas after the following process?
"Lock the piston head in place and plunge the container into water that is colder than the gas."
O point 1
O point 2
O point 3
O point 4
O point 5
O point 6
O point 7
O point 8
Submit
Request Answer
Part D
Starting from equilibrium at point 0, what point on the pV diagram will describe the ideal gas after the following process?
"The piston is now insulated from its surroundings. Pull the piston head further out of the container."
• View Available Hint(s)
O point 1
Figure
< 2 of 2 >
O point 2
O point 3
-Isotherms
O point 4
O point 5
O point 6
O point 7
O point 8
Submit
Transcribed Image Text:Part B A container holds a sample of ideal gas in thermal equilibrium, as shown in the figure. (Figure 1) One end of the container is sealed with a piston whose head is perfectly free to move, unless it is locked in place. The walls of the container readily allow the transfer of energy via heat, unless the piston is insulated from its surroundings. Starting from equilibrium at point 0, what point on the pV diagram will describe the ideal gas after the following process? "Immerse the container into a large water bath at the same temperature, and very slowly push the piston head further into the container." • View Available Hint(s) O point 1 O point 2 O point 3 O point 4 O point 5 O point 6 O point 7 O point 8 Submit Previous Answers X Incorrect; Try Again; 4 attempts remaining The volume of the gas cannot remain constant because the piston head has moved further into the container. Part C Starting from equilibrium at point 0, what point on the pV diagram will describe the ideal gas after the following process? "Lock the piston head in place and plunge the container into water that is colder than the gas." O point 1 O point 2 O point 3 O point 4 O point 5 O point 6 O point 7 O point 8 Submit Request Answer Part D Starting from equilibrium at point 0, what point on the pV diagram will describe the ideal gas after the following process? "The piston is now insulated from its surroundings. Pull the piston head further out of the container." • View Available Hint(s) O point 1 Figure < 2 of 2 > O point 2 O point 3 -Isotherms O point 4 O point 5 O point 6 O point 7 O point 8 Submit
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