An ideal gas follows the three-part process shown in the figure ( Figure 1 ) . A
ID: 2277195 • Letter: A
Question
An ideal gas follows the three-part process shown in the figure(Figure 1) . An ideal gas follows the three-part process shown in the figure(Figure 1) . An ideal gas follows the three-part process shown in the figure(Figure 1) . An ideal gas follows the three-part process shown in the figure(Figure 1) . Part A At the completion of one full cycle, find the net work done by the system. W =kJ Part B At the completion of one full cycle, find the net change in internal energy of the system. ?U =
kJ Part C At the completion of one full cycle, find the net heat absorbed by the system.
Q =
kJ Provide Feedback Part A At the completion of one full cycle, find the net work done by the system. W =
kJ Part B At the completion of one full cycle, find the net change in internal energy of the system. ?U =
kJ Part C At the completion of one full cycle, find the net heat absorbed by the system.
Q =
kJ Part A At the completion of one full cycle, find the net work done by the system. W =
kJ Part B At the completion of one full cycle, find the net change in internal energy of the system. ?U =
kJ Part C At the completion of one full cycle, find the net heat absorbed by the system.
Q =
kJ Part A At the completion of one full cycle, find the net work done by the system. W =
kJ Part B At the completion of one full cycle, find the net change in internal energy of the system. ?U =
kJ Part C At the completion of one full cycle, find the net heat absorbed by the system.
Q =
kJ Part A At the completion of one full cycle, find the net work done by the system. W =
kJ Part A At the completion of one full cycle, find the net work done by the system. W =
kJ W =
kJ W =
kJ Part B At the completion of one full cycle, find the net change in internal energy of the system. ?U =
kJ Part B At the completion of one full cycle, find the net change in internal energy of the system. ?U =
kJ ?U =
kJ ?U =
kJ Part C At the completion of one full cycle, find the net heat absorbed by the system.
Q =
kJ Part C At the completion of one full cycle, find the net heat absorbed by the system.
Q =
kJ Q =
kJ Q =
kJ Provide Feedback of 1 An ideal gas follows the three-part process shown in the figure(Figure 1) . Part A At the completion of one full cycle, find the net work done by the system. W =
kJ Part B At the completion of one full cycle, find the net change in internal energy of the system. ?U =
kJ Part C At the completion of one full cycle, find the net heat absorbed by the system.
Q =
kJ Provide Feedback of 1 An ideal gas follows the three-part process shown in the figure(Figure 1). At the completion of one full cycle, find the net work done by the system. At the completion of one full cycle, find the net change in internal energy of the system. At the completion of one full cycle, find the net heat absorbed by the system.
Explanation / Answer
a.) W =-0.5*100*3 =-150kJ
b.)net change = 0, since initial and final state are same.
c.)Q = -w = 150J
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